Archive for the Brewing Info Category
Ingredients:
- 1.7kg Mangrove Jacks Czech Pilsner,
- Gold Blend (Brewing Blend),
- 500gr Light Dry Malt,
- 12g Hallertau Hops,
- 12gr Hersbrucker Hops,
- 2 x Saflager S-23 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Czech Pilsner Tin, the Gold Blend & the 500gr Light Dry Malt, mix well. Add 12gr Hallertau Hop (tea bag), and 12gr Hersbrucker Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Golden Sheaf Wheat,
- 1.5kg Morgans Wheat Malt,
- 1 x Wheat Beer Yeast (Safbrew WB-06)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Golden Sheaf Wheat Tin & 1.5kg Wheat Malt Tin, mix well. Top up fermenter to 23 litres with cold water and sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Coopers Series Bootmaker Pale Ale,
- 1.5kg Coopers Wheat Malt,
- 1 x 15gr Nelson Sauvin Hop (steeped),
- 1 x 15gr Amarillo Hop (steeped),
- 1 x 12gr Galaxy Hop (dry hopped day 3),
- American Ale Yeast (Safale US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Bootmaker Pale Ale Tin and 1.5kg Wheat Malt Tin, mix well. Add 15gr Nelson Sauvin Hop & 15gr Amarillo Hop (tea bags) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. On day 3 of fermentation, open your fermenter lid and add 12gr Galaxy Hops to the brew dry. Leave the brew to finish fermenting (using a hydrometer to check) then bottle/keg.
Ingredients:
- 1.7kg Morgans Pacific Pale Ale,
- 1.5kg Morgans Wheat Malt,
- 2 x 12gr Galaxy Hop,
- American Ale Yeast (Safale US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Pacific Pale Ale Tin and the 1.5kg Wheat Malt Tin, mix well. Top up fermenter to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. On day 4 of fermentation, open your fermenter lid and add both 12gr Galaxy Hops to the brew dry. Leave the brew to finish fermenting (using a hydrometer to check) then bottle/keg.
Ingredients:
- 1.7kg Morgan’s Blue Mountain Lager,
- Premium Blend (Brewing Blend),
- 12g Fuggles Hop,
- 1.6kg Dextrose (Brewing Sugar),
- 2 x American Ale Yeast (Safale US-05).,
- Finings (Beer Clearing Agent)
This is a tasty brew, more renowned for its high alcohol content then anything else. Never the less it is a nice beer to have in storage, to be pulled out on special occasions!
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Blue Mountain Lager Tin, 1kg Premium Blend and 1.6kg Dextrose, mix well. Add 12gr Fuggles Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle both American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Approx 2 days before fermentation is complete, mix your sachet of Finings into a cup of warm water, stir to completely dissolve then pour solution into fermenter, and lightly stir the top of the wort to spread solution evenly. Leave wort to finish fermenting (use a hydrometer to check when your wort is finished fermenting), then bottle/keg.
Ingredients:
- 1.7kg Morgans Australian Bitter,
- 1.5kg Thomas Coopers Amber Malt,
- 12gr Hallertau Hops,
- American Ale Yeast (US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Australian Bitter Tin and the 1.5kg Amber Malt Tin, mix well. Add 12gr Hallertau Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Dockside Stout,
- 1.5kg Morgans Dark Malt,
- 12gr Goldings Hop,
- 150gr Lactose (For Creamy Head),
- American Ale Yeast (Safale US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Dockside Stout Tin, the 1.5kg Morgans Dark Malt Tin, as well as the Lactose, and mix well. Add 12gr Goldings Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Queenslander Bitter,
- Premium Blend (Brewing Blend),
- 12gr Pride Of Ringwood Hop,
- 2 x Saflager W-34/70 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Queenslander Bitter Tin and the Premium Blend, mix well. Add 12gr Pride Of Ringwood Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Apr05
Recipe List To Make Your Favourite Commercial Spirits!!
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This recipe list has been tested by us at Marlin Coast Home Brew. It has been very well constructed and so we thought we would share it with you! This recipe list is designed to make alcohol that resembles the well known commercial bottles we all love! Please enjoy..
Similar to ‘Jack Daniels’ (Bourbon)
- 1 x 250gr Essencia Bourbon Chunks (1/2 a 500g Bag of Chunks),
- 1 x Essencia Tennessee Bourbon Essence,
- (Put all into a container, add 4 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Jim Beam’ (Bourbon)
- 1 x Maguire’s Kentucky Bourbon Essence,
- 1 x 100g Still Spirits Kentucky Bourbon Chips,
- (Put all into a container, add 4 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Wild Turkey’ (Bourbon)
- 1 x Noble Turkey Bourbon Essence,
- 1 x 100g Still Spirits Gobblers Bourbon Chips,
- (Put all into a container, add 4 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Jack Daniels Tennessee Honey’ (Honey Bourbon)
- 1 x Top Shelf Honey Bourbon Essence,
- 1 x 200ml Ezi Base Liqueur & Schnapps,
- 1 x 100gr Essencia Bourbon Chunks,
- (Put all into a container, add 4 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Jim Beam Red Stag’ (Cherry Bourbon)
- 1 x Top Shelf Cherry Bourbon Essence,
- 1 x 200ml Ezi Base Liqueur & Schnapps,
- 1 x 100gr Essencia Bourbon Chunks,
- (Put all into a container, add 4 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Jim Beam Apple’ (Apple Bourbon)
- 1 x Top Shelf Apple Schnapps Essence,
- 1 x 200ml Ezi Base Liqueur & Schnapps,
- 1 x 100gr Essencia Bourbon Chunks,
- (Put all into a container, add 2.25 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Makers Mark’ (REALLY Oaky Bourbon)
- 1 x 500gr Essencia Bourbon Chunks,
- ½ x Top Shelf Tennessee Whisky Essence,
- ½ x Classic Tennessee Bourbon Essence (1 entire sachet from double packet),
- (Put all into a container, add 5 litres of filtered spirit, leave for 3 weeks, strain through paper coffee filters or paper towels to remove wood)
Bourbon Liqueur (Sweet & Smooth)
- 1 x Sup’ n Bourbon Party Pak Essence,
- ½ x Maguires Tennessee Bourbon Essence,
- 6 x Capfulls (12ml) of Top Shelf Mellow Oak Essence,
- (Top up to 2.25 litres with filtered spirit, mix well, allow to age in the bottle for 10 days to 2 weeks).
Similar to ‘Bundaberg Rum’ (Rum)
- 1 x Marlin Coast Green Label Rum Essence,
- 1 x 20gr Rum Barrel Shavings (Rum Wood Chips),
- (Put all into a container, add 1.4 litres of filtered spirit, leave for 1 week to 10 days, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Captain Morgan’ (Spiced Rum)
- 1 x Top Shelf Spiced Rum Essence,
- 1 x 220ml Ezi Base Liqueur & Schnapps,
- 6 x Capfulls (12ml) of Top Shelf Mellow Oak Essence,
- (Top up to 2.25 litres with filtered spirit, mix well, allow to age in the bottle for 10 days to 2 weeks).
Similar to ‘Sailor Jerry’s’ (Spiced Rum)
- 1 x Prestige Rum Spice Essence,
- 2 x Capfulls (4ml) of Top Shelf Mellow Oak Essence,
- (Top up to 750ml with filtered spirit, mix well, allow to age in the bottle for 10 days to 2 weeks).
Similar to ‘Lambs Navy Rum’ (British Dark Rum)
- 1 x Essencia Navy Rum Essence,
- 1 x 30gr Rum Barrel Shavings (Rum Wood Chips),
- (Put all into a container, add 2.25 litres of filtered spirit, leave for 1 week to 10 days, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Coruba Jamaica Rum’ (Dark Rum)
- 1 x Top Shelf Jamaican Dark Rum Essence,
- 1 x 30gr Rum Barrel Shavings (Rum Wood Chips),
- (Put all into a container, add 2.25 litres of filtered spirit, leave for 1 week to 10 days, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Canadian Club’ (Canadian Whisky)
- 1 x Top Shelf Rye Whisky Essence,
- 1 x Essencia Rye Whisky Essence,
- 12 x Capfulls (24ml) of Top Shelf Mellow Oak Essence,
- (Add 4 litres of filtered spirit, mix well, allow to age in the bottle for 10 days to 2 weeks).
Similar to ‘Johnny Walker’ (Scotch Whisky)
- 1 x Essencia Walkers Whisky Essence,
- 1 x 20gr Toasted American Oak Chips,
- (Put all into a container, add 2.25 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Glenfiddich’ (Scottish Single Malt Whisky)
- 1 x Gold Medal Glen Darroch Whisky Essence,
- 1 x 20gr Toasted American Oak Chips,
- (Put all into a container, add 2.25 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Glenmorangie Single Malt’ (Single Malt Whisky)
- 1 x Classic Single Malt Whisky Essence,
- 1 x 20gr Toasted American Oak Chips,
- (Put all into a container, add 2.25 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Jameson’ (Irish Whisky)
- 1 x Samuel Willard’s Gold Star Irish Whisky Essence,
- 1 x 20gr Toasted American Oak Chips,
- (Put all into a container, add 2.25 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Tullamore Dew’ (Irish Whisky)
- 1 x Classic Irish Whisky Essence,
- 1 x 20gr Toasted American Oak Chips,
- (Put all into a container, add 2.25 litres of filtered spirit, leave for 2-3 weeks, strain through paper coffee filters or paper towels to remove wood)
Similar to ‘Southern Comfort’ (Whisky Liqueur)
- 1 x Top Shelf Southern Haze Essence,
- 1 x 220ml Ezi Base Liqueur & Schnapps,
- 6 x Capfulls (12ml) of Top Shelf Mellow Oak Essence,
- (Top up to 2.25 litres with filtered spirit, mix well, allow to age in the bottle for 10 days to 2 weeks).
Similar to ‘Grey Goose’ (Vodka)
- 1 x Essencia Canard Vodka Essence,
- 6 x Capfulls (12ml) of Top Shelf Glycerine (Smoothing Agent),
- (Add 2.25 litres with filtered spirit, mix well, allow to age in the bottle for 10 days to 2 weeks).
Similar to ‘Bombay Sapphire’ (Gin)
- 1 x Essencia Blue Sapphire Gin Essence,
- 4-6 x Juniper Berries,
- (Add 2.25 litres of filtered spirit to essence, mix well then pour into bottles. Add 2-3 juniper berries per 1.125 litre bottle [squeeze them between your fingers to pop them then drop them in the bottle]. Remove berries after 2-3 weeks and enjoy)!!
Similar to ‘Jagermeister’ (German Liqueur)
- 1 x Prestige Jakt Snaps Essence,
- 1 x 100ml Ezi Base Liqueur & Schnapps,
- (Top up to 750ml with filtered spirit, mix well, allow to age in the bottle for 10 days to 2 weeks).
- **A shot glass of Jagermeister dropped into a glass of Red Bull energy drink makes a cocktail called a JagerBomb**
Similar to ‘Liqueur 43’ (Spanish Liqueur)
- 1 x Prestige Liqueur 45 Essence,
- 1 x 200ml Ezi Base Liqueur & Schnapps,
- (Top up to 750ml with filtered spirit, mix well, allow to age in the bottle for 10 days to 2 weeks).
- **In Mexico, mixing espresso coffee with Liqueur 43 and served on ice is called a ‘Carajillo’**
Vanilla Apple Cooler (Cocktail)
- 1 x Top Shelf Apple Schnapps Essence. Also needs 180ml of Ezi base added with it. Makes 1.125ltr’s,
- 1 x Still Spirits Vanilla Vodka Sachet Essence, Makes 1 litre.
- (Half a shot of vanilla vodka, half a shot of apple schnapps into a glass full of ice, 2-3 wedges of cut lime [squeezed into glass then left in there], top up with lemonade/Soda water!)
Lychee & Lime (Cocktail)
- 1 x Edwards Lucky Lychee. Also needs 300ml Ezi Base Liqueur & Schnapps added with it.
- Makes 1.4 liters.
- (One shot of Lychee liqueur into a glass full of ice, 2-3 wedges of cut lime [squeezed into glass then left in there], top up with lemonade/Soda water!)
Apr04
Should i use a stainless steel alcohol filter?
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In short, NO!
Carbon when in direct contact with stainless steel will corrode your filter, this will form tiny ‘pits’ inside the filter where the carbon has been sitting against the steel, and this pitting (corroded steel) will come out of the filter in your alcohol. In turn you will be ingesting small amounts of metal, and we would highly recommend using a plastic spirit filter!
Corrosion Of Stainless Steel Due to Carbon Contact: Remember that activated carbon may contain residues of strong chemicals (acids) that are impregnated during its manufacture. Carbon has the highest galvanic potential of all conducting materials, and in presence of humidity it will tend to corrode most ANY metallic surface. Look for a non-conductive and corrosion resistant material or coating for your vessel, like plastic!
Apr03
Do I need to water down my spirit to 40% before filtering?
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Most definitely YES!
Carbon can physically only treat alcohol up to 55% and trying to run anything stronger than this through carbon is a total waste of time! Having said that, even though it can treat up to 55% we would ALWAYS recommend watering down and treating your alcohol at no higher than 40% for best results.
Note: Many brewers over the years have said they run their spirit straight from the still (at 80-90%) into their filter, and it taste fine so it must work!? This is incorrect, as the carbon is physically unable to do its desired purpose at such a high alcohol strength. Although the carbon may make the alcohol smell better, this is the only thing it has done for that alcohol. Most impurities that you are carbon treating are tasteless, colourless and odourless, therefore just because it looks and smells ok, does not mean it is safe to consume! Always water down your alcohol before carbon filtering.
Different stills run at different temperatures, and if in doubt you should check with the manufacturer/supplier of your particular brand of still. However majority of stills are designed to run similarly. The temperature that ethyl alcohol boils off at is 78C-82C and therefore if your still has a temperature gauge in the top of the condenser (usually in a rubber bung situated at the top) it should run between 78C-82C (with 78C being ideal). If your still has a water outlet thermometer to gauge the temperature, it usually sits between 50C-65C (dependant on the brand of still). For an Essencia Express Condenser (or Essencia water outlet thermometer used with any still) the temperature is 50C-55C. With a Turbo 500 Condenser, the water outlet temperature should sit between 55C-65C (with 60C being the ideal).
Making the cleanest and best tasting spirit is not a difficult process, but rather simple once you break it down into 4 main steps.
Step 1: Fermentables, when making your wash most people use white sugar, it is a cheaper option and easier to come by, but also contains ‘Fructose’ a complex sugar that is harder for your yeast to break down. During this process, the yeast creates a lot of unwanted flavours which will add to the taste of your finished product. Dextrose is a much cleaner alternative, and should not only give you a better finished product, but a better yield also!
Step 2: Yeast, a lot of nutrient is in almost all commercially available yeast, but it is this nutrient that gives your finished alcohol a harsher and less desirable taste. Yeast nutrient is what gives ‘turbo yeasts’ the added volume and fast fermentation periods, however think of this ‘nutrient’ as you do fertiliser. Pump fertiliser into your flowers and your garden grows fast and looks great, pump your tomatoes full of fertiliser and there not going to taste nearly as good as organic!? Well, it’s the same with distillation, the better quality ingredients you use, the better quality product you end up with! Using a yeast like ‘Essencia Super 6 Ultra Pure’ will give you a cleaner alcohol, but unlike most turbo yeasts you will get a lower volume. It is a decision you are faced with, quality over quantity, Turbo Yeasts with more nutrient will give you more alcohol, cleaner yeasts with less nutrient will give you a better alcohol!
Step 3: Fermentation temperature, fermenting for a longer period at a lower temperature is ideal! As with beer and wine fermentation, the same principles apply to spirits. The yeast you use will have a specific temperature range to ferment within, most yeasts will ferment as high as 35C (some up to 40C) but although they will manage this will little problem, the ideal fermentation temperature for almost all spirit yeasts is 20-25C and this is the temperature that will allow a slower ferment, causing less undesired flavours (created from stressing the yeast at higher temperatures) and a cleaner finished product.
Step 4 : Carbon Treatment, to ensure a great tasting spirit it is important to use an effective carbon filter system! The old way to carbon treat was to soak your spirit on Activated Carbon for a number of days to a week, then use a finishing carbon and an inline/drip filter to run through the soaked spirit. When this was the only method available it worked as best it could, but it really is an ineffective means of trying to carbon treat alcohol, and does not work very well compared to the filters of today. These days there are many filters that are not only faster and work more effectively, but produce a much better finished product as well! See our “Filters & Carbon” section to look at some of the latest and greatest carbon filter systems available.
Apr03
What is the ideal temperature to brew my beer at?
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With beer brewing, the rule of thumb is the cooler and more consistent you can keep your fermentation the better! When yeast is forced to work at higher temperatures, it will produce a large amount of fermentation by-products, such as esters and fusel alcohols. These by-products are responsible for all sorts of weird flavours in beer, flavours that are not associated with good beer! Therefore the cooler and more consistent you can keep your fermentation, the less esters your yeast will produce and the cleaner more commercial taste you will achieve for your beer!
Most generic yeasts that come with your beer tin concentrates will usually specify fermenting between 20-25C, although this will give you your best results, these yeasts generally can handle fermenting warmer (up to 28-30C) with a lot less noticeable esters than if you were using specialty yeast. Again though, the recommendation would to be to stay as close to the ideal fermentation temperature as possible!
When purchasing and using specialty yeast, the esters caused by warmer fermentation is a lot more noticeable. The ideal fermentation temperature is usually 18C-20C for ALES (with a 2-3 week fermentation time). Whilst the ideal fermentation temperature is 13C-14C for LAGERS, (with a 3-4 week fermentation time).
Apr01
Is carbon treatment necessary after distillation?
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Definitely YES!
During distillation different alcohols are boiled off at different temperatures, the impure alcohols before ethyl alcohol (drinking alcohol) are often referred to as ‘Heads’ and the impurities after are often referred to as ‘Tails”. The temperature drinking alcohol boils off at is 78C-82C, which is why we always try to run our still between these temperatures. Impurities like acetone and methanol have a boiling temperature which is a lot lower, and is why they are the first impurities to come out of your still, hence why you should always throw the first 150ml of alcohol (impure alcohols) that comes out of your still.
You then collect the ethyl alcohol that comes out between 78C-82C, switch off your still, and water down your alcohol to 40%. Now although you have kept you still at the desired temperature, impure alcohols do not stop and start directly at the temperatures they boil off at, there is a degree of ‘Tail’ impurities (eg: Propanol -1) that will be present in your alcohol. That’s where carbon comes in!
Any ‘Tails’ that have come through with your alcohol can now be removed by carbon treating. Carbon works like a sponge with many millions of tiny crevasse/holes that the impurities get stuck in, then once you remove the carbon, the alcohol is free from these undesirables. For a detailed scientific explanation on how carbon works see: “Carbon – An explantion on the how carbon works!“
Ingredients:
- 1.7kg Morgans Australian Old,
- Premium Blend (Brewing Blend),
- 12gr Goldings Hop,
- American Ale Yeast (Safale US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Australian Old Tin and the Premium Blend, mix well. Add 12gr Goldings Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Australian Blonde,
- 1kg Dextrose (Brewing Sugar),
- 250gr Corn Syrup (Brewing Sugar),
- Dry Enzyme (Additive),
- 2 x Saflager W-34/70 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Australian Blonde Tin, 1kg Dextrose and 250gr Corn Syrup, mix well. Top up fermenter to 23 litres with cold water and add Dry Enzyme, mix in well. Sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Australian Bitter,
- 1kg Dextrose (Brewing Sugar),
- 250gr Corn Syrup (Brewing Sugar),
- 12gr Pride Of Ringwood Hop,
- 2 x Saflager W-34/70 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Australian Bitter Tin, 1kg Dextrose and 250gr Corn Syrup, mix well. Add 12gr Pride Of Ringwood Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Dec02
What measures can I take to guard against cloudy spirit?
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The best method is to clear your wash before distillation using Still Spirits Turbo Clear, this will drop most of the excess sugars and sediment to the bottom of your wash. Then add some “Distilling Conditioner” or “Foam Stop” to your still boiler (when filling it with the cleared wash) immediately before starting your burn. The clearing agent stops most excessive sugars being transferred to the boiler at all, whilst the ‘foam stop’ stops foaming in the boiler during the burn, (which is caused by high concentrations of proteins and unfermented sugars in the wash itself).
Note: Distilling conditioner allows distillation even if your wash has not fully fermented out.
Dec02
Can I treat the cloudy spirit and make it drinkable?
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The usual carbon filtering process will in most cases remove the cloudiness, but as the cloudiness often stems from your wash coming through with the spirit, the sure way is to redistill the cloudy spirit. Simply pour the spirit back into your still, top up to the usual height with tap water, then run as per normal.
Helpful Hint: Make sure that you add the extra water (up to the usual level in your boiler) to ensure that the element will still be covered when all the alcohol has been boiled off, otherwise you will boil it dry and ruin the element.
You will produce small quantities of methanol when distilling using commercial ‘spirit yeasts’ and sugar/dextrose. The temperature ethanol (drinking alcohol) boils off at is 78C-82C, which is why we are always told to keep our still between these temperatures. The acetone and methanol boiling temperatures are a lot lower, and this is why they are the first impurities to come out of your still, hence why you should always throw the first 150ml of alcohol (impure alcohols/methanol) that comes out of your still. As we are only fermenting sugar with a known yeast and nutrient mix (often refered to as ‘Turbo Yeasts’), we know how much by products such as methanol are to be discarded at the beginning, making the process of distillation safe.
If you wish to distill other mixtures (other than brew shop yeast and sugar/dextrose) then the methanol quantity produced is unknown and could prove disastrous!
Dec02
Important Information On Maturing Your Beer!
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Maturing your Home brew:
Short answer: Most literature state 2-6 months as an optimum time for beer to age to get the full effect of the hop flavour, as after 6 months the hop taste will start to diminish.
I love hearing stories, I love talking to people and I love to hear different ideas and theories on homebrew. Recently I have been hearing many different stories on maturing your brew. How long people do it for, methods, preferences and the difference all this makes.
I have meet people who mature the beer in total darkness, people who let it sit in the sun for a day before putting in in the fridge and people who will only mature in the fridge…..with a broken light!
While a lot of people don’t give the topic much though, it is important to know a little about and it is nice to know what effects different practices have on your beer, as it has almost as much importance on the overall flavor of your beer as the actual fermenting.
This article is less about the actual hows of maturing your beer, but more so the effects that different factors can have on it like temperature, time and exposure to light (which are the main factors contributing to the flavor of your beer after it is bottled).
Sunlight:
As most people know, beer left in the sunlight goes bad and is often called “skunky”. The most common perception is that the sunlight effects the yeast, causing it to react and give off bad flavors. This is false(we are taking about sunlight, or ultra violent rays, not heat). All commercial beer has the yeast almost entirely filtered out of it. It is actually because the hops used to flavor your beer are extremely sensitive to light. Even if exposed to light for less then an hour, beer will undergo a chemical reaction a produce a chemical called 3-methyl crotyl mercaptan . This is the chemical that gives beer that skunky taste, and believe me, once its in there you will know about it!
If you want to act smart around your mates try telling about this: It occurs when UV light penetrates a beers’ glass container and is a photochemical reaction. The (energy) strikes a cyclic (a carbon ring) ring structure derived from the hops. The ring opens up and a free radical is formed. A sulfer compound attaches to the free radical producing a skunk-like aroma.
Most supermarkets and bottle shops display the beer in brightly lit fridges. There bright, cheap, attractive and pump out ultra violent rays that can set of that chemical reaction and cause your beer to go skunky.
This is why most beer come in a brown bottle. It is to minimize the amount of sunlight exposure they receive. Beer that comes in a clear or green bottle are offered almost no protection to the sun light, and with the wrong type of beer it can go off in a matter of minutes (there have been tests that saw a clear bottle filled with a mid-strength beer go off in 15 seconds).
If you have a specified beer fridge I would recommend either change the light bulb to a non fluorescent light bulb or just turn the light off all together.
Brewers can also battle this process by using hydrogenated hop extracts instead of fresh hops, but then you’re not getting the best quality beer.
Temperature Change:
Beer wants to remain at the same temperature as long as possible. Especially home brew, without the cold conditioning process that most beer goes through before hitting the shelves. In fact beer goes stale faster in warmer conditions. This has to with the yeast,e. Its the yeasts physical reaction to the heat that causes off and often yeasty flavors. Always try to keep your beer no warmer then 25c-30c. As a general rule of thumb if you brewed the beer at 27c, try not to let it get to hotter then that (if you cant ferment beer at 30+ what makes you think you can store it at 30+!). remember your beer is not finished when it is in the bottle, it is undergoing a secondary fermentation process.
Maturing your beer at cooler temperatures ages it ‘better’. This is because of the amount chemical reactions happening to a beer whilst it is cooler is much less then that if it was at a higher temperature. Just for a test try this. Find a suitable a brew, something around 3 weeks to a month old. Try one on a Monday, make a note of its flavor, head, bitterness etc. Get two of the same brews. Put one in the fridge and one on the shelf. Sunday night put the one on the shelf in the fridge. Monday taste them both and makes notes of any differences. You will be amazed at the difference this makes.
Heat is like over-pasteurizing a beer. The heat caramelizes whatever sugars are in the beer, giving it a differently sweet taste. Heat will also greatly amplify any hint of off-flavor, like dimethyl-sulfide (one of the off yeasty flavors)
Time:
Many people wonder if there is a time limit on how long you can age your beer. The short answer is no. The beer will last an indefinite amount of time, although the flavor will change, as long as it is stored properly.
But is there a limit to how long you should age a beer before the aging has different effects or stops being so productive. I mean I have drunk a 6 year old home brew pilsner that had been in the fridge almost from birth, and they where fantastic (as you might have guessed). What many didn’t know that an extremely long fermentation period can have different effects.
Chimay blue, considered one the best beers in the world is fermented for an incredibly long time, and it isn’t what you call a regular beer. Its fruity with a touch some wine character and for your average beer drinker a little off (personally I could appreciate it, but couldn’t sit down to a whole carton….maybe the price had something to do with that though)
Just to give you an idea this is the sort of thing that can happen to a home brew (especially a highly hopped beer with lots of flavor character), so if you where after that fruity, wine character you might consider putting the beer down for an extended period.
Most literature state 2-6 months as an optimum time for beer to age to get the full effect of the hop flavour, as after 6 months the hop taste will start to diminish. Maybe this is because most people cant be bothered waiting for longer, or there is no way for a home brewer to do the exact same beer under the exact same conditions and test the difference a year or two years later.
This sort of age usually isnt acheivable for your average bottle home brew, I know of “keggers” who do it but thats only because they have lots of kegs!
Most people are well aware of how to mature your beer. Its simple really, keep it cool, keep it dark, and keep it for about a year!
I just hope that next time you bottle and think you will just leave that carton there, next to the window, whilst I quickly have a quiet few and bask in the glory of whats to come, you will think twice and be able to thank yourself a year later when you crack open a wonderfully aged brew and reward yourself with some of the best beer you have ever tasted.
In beer making all time is relative to temperature. The warmer the brew, the faster the ferment the more quickly it will spoil once fermentation has finished, that is prior to bottling. The cooler the brew, the more slowly things happen. Generally rely on your hydrometer to tell you, if you take two hydrometer readings 24-48hrs apart, and they read the same both times, fermentation is complete and you can then keg/bottle.
Dec02
How long does it take to make each batch of spirits?
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7 days (1 week) best case scenario using Turbo Yeasts, or 12 days using a slower cleaner yeast (Super 6 Ultra Pure).
General rule of thumb, 5-10 days to ferment your wash (dependant on the type of yeast used). 24hrs to clear your wash, 4-7 hours to distil (again dependant on the type of still unit used), and approx. 24hrs to carbon treat your alcohol (using the modern carbon filters available).
Dec02
If I add more sugar will I get more alcohol?
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With some yeasts you may do, but do not add more than the recipe or manufacturer recommends as yeast varieties are selected for different properties. A yeast variety which can ferment rapidly, may not be very resistant to alcohol. If this is the case, adding too much sugar will stress the yeast and may result in unfermented sugar remaining in the wash. This can often cause the wash to foam up during distillation. Most spirit yeasts have a recipe printed on them, with the amount of sugar and there ideal fermentation temperature. Select the yeast that best suits your needs.
Generally yeasts will have only two options, either fermenting 6kg of white sugar (7kg when using dextrose), or they will ferment 8kg of white sugar (9kg when using dextrose). If the yeast gives the option to ferment either 6kg OR 8kg of white sugar, it is ok to add the extra 2kgs, however usually it will state that a faster and cleaner ferment will be accomplished using the lesser amount of sugar. This is due to the extra work and stress put on the yeast when adding the additional fermentables.
Dec02
Which type of still produces the most alcohol?
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This is somewhat of a trick question because volume of alcohol is dependant on how well your wash ferments, and how much alcohol is present in that wash. Think of it like this, the newer reflux style stills (Turbo 500 & Essencia Express Stills) will produce a higher strength finished product. If you were to collect 3.5 litres using a super reflux still at say 80% or the same 3.5 litres of alcohol using a Turbo 500 at say 90%, then once you have watered both down to 40% the Turbo 500 should give you a higher volume of finished product. That being said you would have had to have collected the same amount from both stills for this theory to be relevant.
All stills collect alcohol from your wash at varying strengths, but at the end of the day though, the total amount of alcohol collected is dependent on how much is present in your wash. Newer Reflux Stills collect alcohol at a much higher strength than the previous model stills were able to, so in reality even if you are not getting more alcohol, you are in fact getting a cleaner and better quality alcohol!
Another advantage of newer stills is they have a considerably shorter run time than the older reflux/super reflux style stills, usually finishing in 3.5-4 hours as opposed to the older models 6-7 hours!
Alcohol should always be watered down to below 55%/V before filtering, as carbon physically cannot treat alcohol at higher strengths.
Sep01
Will adding carbon to the wash improve the finished spirit?
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In a word Yes.
What happens is simple, during fermentation the wash produces fusel oils which need to be removed and the sooner the better. By adding 1 packet of Still Spirits Turbo Carbon (liquid carbon) to the wash at the beginning of fermentation the fusel oils are absorbed by the carbon as they are produced.
When to add the carbon?
Simply mix the dextrose and water, add your Turbo Carbon, stir till dissolved, and add your yeast – it’s that easy.
Once fermentation is finished, make sure you use ‘Turbo Clear’ to drop all of the unfermented sugars and excess carbon to the bottom of the fermenter before transferring the wash to your boiler and distilling.
Give it a go – you might be surprised by the result.
(Note that fermenter used for making a spirit wash with carbon will stain and can not be used for beer afterwards)
Sep01
Why does the spirit drip through the continous filter to fast?
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If the spirit runs through too quickly it is usually due to the filter paper not sitting correctly. This can occur when the continuous filter has not been cleaned properly after use.
Always ensure all Finishing Carbon is cleaned out of the cartridge. The filter paper can also be dislodged by the spirit reacting with the Finishing Carbon. Simply repack the cartridge using the same carbon and paper.
Helpful Hint: The carbons are designed to work in tandem. When you open the tap and start the flow of spirit to the filter cartridge, some of the HA Carbon comes down with the spirit.
This forms a coating on the filter paper which then filters out any more carbon. If you reset the filter and don’t have sufficient HA Carbon on the paper then the filter paper may not work correctly. To remedy this simply ensure some of the HA Carbon is mixed into the first lot of spirit that comes down the tube. Also ensure that you use Still Spirits HA Carbon as your first treatment in the Continuous Filter.
Sep01
Why does the spirit drip through the continous filter so slowly?
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This may be caused by the following.
Too much high activity carbon has passed down the tube to the black cartridge after the tap has been turned on.
Helpful Hint: Put a 25 mm spacer under the continuous filter, at the front where the hose exits to the continuous filter.
This will tilt the container back, and ensure that the High Activity Carbon settles to the back of the filter.
This will avoid any carbon from settling over the outlet to the filter cartridge which could block it.
It is important to let most of the High Activity Carbon settle before opening the tap and letting the spirit flow through to the filter cartridge. This takes 24 hours. If you open the valve too soon then too much carbon may flow down the tube and clog the filter paper making the process go much slower.
The Filter Cartridge may have been overfilled with Finishing Carbon.
As the carbon reacts with the spirit it expands and heats up. Always leave a 10 mm gap for expansion.
Temperature: The filter system operates best at normal room temperature.
As the spirit cools down it becomes thicker. As a result, in winter the whole process slows down.
Try heating your spirit before adding it to the reservior or putting the Continuous Filter in a warm place.
Too many filter papers or the wrong type of filter paper.
A dirty or clogged tube, tap or cartridge.
The whole Continuous Filter should be rinsed thoroughly after every use.
Impatience: Remember that the Continuous Filter is removing unwanted impurities from your spirit.
Trying to speed things up too much will effect the quality of your spirit.
Sep01
My thermometer seems to give strange readings?
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When using a glass thermometer, make sure that the thermometer is inserted into the bung so that the red bulb of alcohol at the bottom of the thermometer is positioned at the point where the steam is coming up and changes direction to go into the main condensing chamber, (usually about 2cm from the bottom of the bung, but ot so far as to be touching your packing). If the thermometer goes in too far then a higher reading will result. If it is not in far enough a lower reading may result.
NOTE: Switching to a ‘digital thermometer’ will be easier to read, they are much harder to break, and give a faster more accurate reading!
Sep01
Why is sediment forming in spirit after carbon filtration?
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This is a very rare occurance. The fine sediment is in fact mineral salts which originate within the activated carbon itself. When spirit runs over activated carbon which contains some mineral salts, some mineral salts can be absorbed into the spirit. Later, once the temperature has dropped, these mineral salts start to become insoluble in the spirit and after a few days a fine sediment appears in the spirit. This fine sediment (sometimes looks like a milky haze, other times it drops to the bottom of the bottle) is the mineral salts originally from the activated carbon. These mineral salts are absolutely 100% safe (in fact essential for life!) but you don’t want them in your spirit.
Under certain circumstances, some of this residual mineral content gets dissolved into distillate spirit as the spirit flows over the activated carbon. Think of it this way, as the spirit passes through the activated carbon, the carbon absorbs the vast majority of ‘volatiles’ from the spirit and holds them within the internal pore structure – however, under certain circumstances, mineral salts contained within the carbon may pass into the spirit. Whether mineral salts do indeed get dissolved into the spirit depends upon 2 main variables:
1. The amount and types of mineral salts within the particular batch of carbon.
2. The pH and chelate chemical (eg organic acids like citrate are a chelating agent) content of the spirit.
Obviously, we have no control over 1. In a perfect world we would persuade the supplier to first wash with an inorganic acid like they currently do and then wash with organic acids to remove the remaining salt content.
These mineral salts remain soluble in the spirit for some minutes / hours because the spirit temperature is warm and so has higher solubility. After the spirit has cooled, these mineral salts will begin to become insoluble. If you had a spectrophotometer to measure even the slightest haze, you would begin to ‘see’ the spirit ‘go hazy’ after just a few hours. To the naked eye, you will not start to see these solids until after 2 or 3 days (may be less or more depending upon the level of mineral salts present).
Re-filtering through activated carbon will not help, but ‘re-filtering’ through an ordinary wine filter or even a coffee filter, say 1 week after the filtering through carbon would remove the insoluble mineral salts and hence solve the problem. But spirit should be stored cold (not frozen) during this week to ensure anything that is going to become insoluble, does become insoluble). If the spirit is left for long enough (3 or 4 weeks?), it should be easy to pour off the bright spirit from a white sediment at the bottom of the bottle.
This problem is likely to be influenced by certain environmental conditions like temperature and water quality.
Generally blue or green colour in the alcohol can be caused from to much nutrient in the wash. You are not able to ‘stack’ Turbo Yeast washes, meaning you cannot do a double brew in a 60L fermenter (with twice the sugar and two turbo yeasts), as the excessive nutrient gives the alcohol this colour and unpleasant taste. This is hard to remove, re-distilling and filtering may help but often wont remove it entirely.
Cloudy spirit (which is discoloured from the clear we are used to) is from foaming through of the wash into your spirit. See: What measures can I take to guard against cloudy spirit? section.
Yellow spirit can also be produced if too much spirit has been collected on the previous run. Byproducts build up inside the condenser and are flushed out with the next run. After watering down your spirit, carbon treatment should remove this yellow, but redistilling the alcohol gives the brewer peace of mind. Clean the condenser before re-use.
With older model condensers can sometimes produce discoloured spirit the first or second time that they are used (from new). All condensers are acid washed to remove welding flux etc. after manufacture but problems can still arise.
Sep01
Carbon – An explantion on the how carbon works!
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In my line of work sometimes it gets difficult explaining certain aspects of why we do what we do when making alcohol. One of these involves carbon, and more specifically, just how does it work. So I thought it was about time to clear up the confusion and get the story straight. The following is more a of a scientific explanation of just how carbon works, but hopefully it will give you better idea of exactly why we carbon filter.
First thing, some substances have the ability to attract and hang on to certain molecules by electrostatic attraction. Forget all the buzz words like Van der Waals forces and London forces (if you’ve ever read into how carbon works you may have come across these terms before). They all come down to essentially the same thing as a charged comb attracting a bit of paper, the only difference being the distance the attraction works over. Carbon is particularly good at this attraction thing which might explain why diamonds attract so many bits of fluff (diamonds are packed with dense carbon particles)
The other thing about carbon is that it can be prepared so that its structure resembles a sponge, with millions of tiny passages and holes in it (usually by a process of special aeration). This preparation is loosely called “activation”. These passages and holes can control what molecules get deep inside the carbon, and which cannot…..a purely physical matter of size. It is this physical structure that primarily that primarily governs wether a particular ‘activated’ carbon can be used to ‘target’ molecules of a particular range of sizes. If you are making a respirator, then you will want to know all about that, as some respirator cartridges are best for one range of gases, but not others. In our case, we need not be as fussy as all we are dealing with are very small molecules of water and relatively huge hydrocarbon molecules….the alcohols etc. The water can penetrate all the way into average activated carbon, but the large hydrocarbons can only penetrate by various amounts, according to how big they are. Just a simple sieve thing.
The other thing about a sponge structure is that it presents a huge surface area for molecules to stick to (the use of special manufacturing techniques results in highly porous charcoals that have surface areas of 300-2,000 square metres per gram….per gram!!!!)
So ‘activating’ carbon not only greatly increases its ability to deal with the quantity by having a huge surface area, but also offers a degree of selectivity by physically controlling access to this surface area.
The question of which hydro carbons are attracted strongly to the carbon surfaces they encounter, and those which are attracted weakly, can get a bit complicated. It is not simply a matter of size. Some hydrocarbon molecules, which alone would be attracted weakly, can form a loose association with water and then be strongly attracted to carbon. Water has a boomerang shape, with the two hydrogen atoms at the tips of the boomerang and the oxygen atom in the middle. This positive charge on the oxygen side (egghead/cocktail party term #1: it’s bi-polar). This enables water molecules to stick to parts of some hydrocarbons and give them a bunch of electrostatic anchors to hang onto a carbon surface.
Bottom line is that if a big hydrocarbon molecule can get to a carbon surface, and it is ‘sticky’ enough, then the carbon will onto it (egghead/cocktail party term #2: it absorbs the hydrocarbon molecule).
Bottom line to bottom line… it won’t necessarily stay stuck! Other molecules can come charging in and knock the molecule off the carbon surface it was stuck to (egghead/cocktail party term #3 adsorption is subject to dynamic equilibrium).
Absorption is primarily an electrostatic thing, so it follows that it is desirable to have some charge imbalance on the molecule you won’t to be held strongly. Yes, water is absorbed onto carbon, but you may recall that I said that absorption is also a dynamic equilibrium thing. Water molecules are tiny compared with hydrocarbon molecules, and their mass pales to insignificance when you add up the mass of all atoms in a large hydrocarbon molecule. Think of a large passenger liner coming into to dock and berthing. If any small boats are tied up at the quayside, what do you think their chances are of staying where they are when that massive liner comes bearing down on them? In a sumo wrestling match, the biggest guy usually wins!
Note: Alcohol is made up of hydrocarbons, the fusel oils and volatiles, which make up the ‘bad stuff’ spectrum and are what we are attempting to filter out, are made up of a different type of hydrocarbon, that is more attracted to carbon and slightly larger molecule the normal hydrocarbons.
In summary what have we learnt. Activated carbon is a type of treated carbon, which creates millions of passage ways to trap large hydrocarbon molecules (alcohol and in particular ethanol, which is what we produce when we make our own spirits, is made up of hydrocarbons) and let smaller particles through.
So if the fusel oils and volatiles are made up of bigger, and more attracted particles, so in turn more of them will stick to the carbon, and eventually they will knock most other particles off the carbon, resulting in the ‘bad stuff’ sticking, and the good stuff flowing through.
I hope this has somewhat helped you in understanding just how carbon has helped..
If you think we have it bad, check out some of these weird and wacky laws from the United States (bloody yanks) 😉
ALABAMA
About two of every three counties in Alabama are dry. That is, they prohibit the production, distribution and sale of any alcoholic beverages.
However, Alabama permits the sale of fireworks, tobacco and firearms and it does so with virtually no restrictions or regulations.
For example, there is no state permit required to purchase or carry rifles and shotguns, no licensing of owners of rifles or shotguns, and no registration of such deadly weapons. Similarly, there is no state permit needed to purchase a handgun, no licensing of handgun owners, and no registration of handguns. Even young children can carry and use dangerous firearms.
Alabamans apparently view a drink as more dangerous than fireworks, tobacco, or rifles, shotguns and pistols. Is a drink in the hand of a mature adult more dangerous than a gun in the hand of an immature child
ALASKA
There are 83 dry towns and villages in Alaska. In addition, Fairbanks is a dry town for moose, where it’s illegal to feed a moose any alcoholic beverage. Apparently they can’t hold their alcohol.
DELAWARE
A traveller through the Delaware Valley in 1753 compiled a list of the drinks he encountered; all but three of the 48 contained alcohol.
INDIANA
It’s illegal in Indiana for liquor stores to sell milk or cold soft drinks. They can, however, sell unrefrigerated soft drinks.
IOWA
Iowa has its share of temperance-oriented laws, of which here is a sample:
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It’s illegal to run a “tab.”
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If a law enforcement officer is having a drink in a bar in Iowa and an employee pours water down the drain, the water is legally considered an alcohol beverage intended for unlawful purposes.
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It’s no easier after work. An owner or employee of an establishment in Iowa that sells alcohol can’t even legally consume a drink there after closing for business.
MICHIGAN
It’s illegal in Michigan for a person under the age of 21 to give a gift of alcohol beverage to anyone, even to a person of legal age.
Permitting diners to take home an unfinished bottle of alcohol beverage, rather than consuming it all before leaving to prevent “waste,” encourages moderation and discourages intoxication. However, this is strictly prohibited in Michigan.
MISSOURI
Anyone under the age of 21 who takes out household trash containing even a single empty alcohol beverage container can be charged with illegal possession of alcohol in Missouri.
NEBRASKA
Nebraska state law prohibits bars from selling beer unless they are simultaneously brewing a kettle of soup.
NEW YORK
The longest recorded champagne cork flight was 177 feet and 9 inches, four feet from level ground at Woodbury Vineyards in New York State.
NORTH DAKOTA
State law of North Dakota prohibits serving beer and pretzels at the same time in any bar or restaurant.
PENNSYLVANIA
In Pennsylvania the tax on wine and spirits is called the Jamestown Flood tax because it was imposed in 1936 to raise funds to help the city of Jamestown rebuild and recover from a devastating flood that year. The city of Jamestown quickly rebuilt and recovered but the tax still continues. It currently costs the taxpayers of the state over $160,000,000.00 each year.
TEXAS
The county in Texas with the highest DUI arrests among young drivers is “dry;” that is, prohibits the sale of alcohol.
Texas state law prohibits taking more than three sips of beer at a time while standing.
VIRGINIA
George Washington was apparently the largest distiller of whiskey in the new American nation during the late 1700s. In 1798, the year before his death, Washington’s distillery at Mount Vernon produced 11,000 gallons of whiskey and produced a profit of $7,500. That was an enormous sum of money over 200 years ago.
WISCONSIN
In Wisconsin, an adult under the age of 21 who is married to one age 21 or older can legally drink with his or her spouse.
Interesting Facts on How Alcohol has Shaped Our Society
The Honeymoon
Babylonia, 4,000 years ago, it was customary that one month after the wedding, the bride’s father would provide his son-in-law with all the mead, (A honey beer/wine) that he could drink for its supposed aphrodisiac qualities. At that time, the calendar was lunar based, so the period called the honey month, or as we know it today as the honeymoon.
Rule of Thumb
Before the thermometer was created, brewers would immerse their thumb into the wort to ascertain the correct temperature before pitching the yeast. Too hot would kill the yeast, too cold and the yeast would not multiply. This thumb in beer antic would become what we know as the “rule of thumb”.
Mind Your P’s and Q’s
The English publicans served ale in days gone by, in pints and quarts. At times the pubs drinkers would become unruly, so the bartender would yell to the patrons to mind their pints and quarts and simmer down their anger and settle down. Today, the saying has been abbreviated to mind your p’s and q’s.
Grog
Around the year 1740, Admiral E.Vernon, of the British fleet, decided to water down the navy’s rum. This was not well received by the sailors and the admiral became known as the Old Grog after the rigid woollen grogram. Coats that he wore. The expression, grog, quickly became attached to the meaning of watered down drink. When one became drunk after consuming this grog, they were groggy. Thus the term Grog, was first coined.
Some Trivia
Fredrick the Great of Prussia tried to ban the consumption of coffee and demanded that the populace drink alcohol instead.
President Lincoln, when informed that the General Grant whisky while leading his troops, reportedly replied “find out the brand name of that whisky so I can feed it to my other generals”
During the reign of William the 3rd, a garden fountain was once used as a giant punch bowl. The recipe include 560 gallons of brandy, 1200 pounds of sugar, 25,000 lemons, 20 gallons of lime juice and five pounds of nutmeg. The bartender rowed around in a small boat, filling up guests punch cups.
The shallow champagne glass originated with Marie Antoinette. It was first formed from wax moulds made of her breasts.
In the 1800’s, rum was considered excellent for cleaning hair and keeping it healthy. Brandy was believed to strengthen hair roots.
“The quick brown fox jumps over the lazy dog” is commonly believed to be the only sentence in the English language devised to include all the letters of the alphabet. However, typesetters have another such sentence: “Pack my box with five dozen liquor jugs”
A raisin dropped into a glass of champagne will repeatedly bounce up and down between the top and bottom of the glass.
Did you know that the human body produces its own supply of alcohol naturally on a continuos basis, 24 hours a day, seven days a week? Did you know that the world’s oldest known recipe is for beer
Ingredients:
- 1.7kg Blue Mountain Lager,
- Premium Blend (Brewing Blend),
- 12gr Pride Of Ringwood Hop,
- 2 x Saflager W-34/70 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Blue Mountain Lager Tin and the Premium Blend, mix well. Add 12gr Pride Of Ringwood Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Queenslander Gold,
- Gold Blend (Brewing Blend),
- 12gr Cluster Hop,
- 2 x Saflager W-34/70 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Queenslander Gold Tin and the Gold Blend, mix well. Add 12gr Cluster Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Cortez Cerveza,
- 1kg Dextrose (Brewing Sugar),
- 250gr Corn Syrup (Brewing Sugar),
- Dry Enzyme (Additive),
- 2 x Saflager W-34/70 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Cortez Cerveza Tin, 1kg Dextrose and 250gr Corn Syrup, mix well. Top up fermenter to 23 litres with cold water and add Dry Enzyme, mix in well. Sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Blue Mountain Lager,
- 1kg Light Dry Malt (Brewing Sugar),
- 250gr Corn Syrup (Brewing Sugar),
- 12gr Hallertau Hop,
- 2 x Saflager W-34/70 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Blue Mountain Lager Tin, 1kg Light Dry Malt and 250gr Corn Syrup, mix well. Add 12gr Hallertau Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Royal Oak Amber Ale,
- Premium Blend (Brewing Blend),
- 12gr Fuggles Hop,
- American Ale Yeast (Safale US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Royale Oak Amber Ales Tin and the Premium Blend, mix well. Add 12gr Fuggles Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Sep01
Brewing In Summer – How To Beat The Heat!
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Short Answer: The simplest and most efficient way to ferment at a selected and constant temperature is to use a refrigerator to ferment in. Simply purchasing and using a ‘Fridge Temperature Controller’ to control the fridge and ferment your beer at the temperature you would like. 18-20 degrees is optimal for Ales, whilst 13-14 is optimal for Lagers!
In Depth:
Realise that the following paragraph will contradict what is written in the instructions of most brewing kits (especially Australian ones) where the suggested temperature is often quoted as being in the mid twenties. A maximum of 32 degrees is listed as the upper limit in one well known brewing kit! The yeast will have no difficulty working at these temperatures. In fact it will flourish, fermenting out the beer in rapid-fire time.
Unfortunately, the object of brewing beer is not to ferment out the beer as fast as you can, but to produce beer as good as you possibly can with the equipment and ingredients you have at hand, and to do this you must ferment at lower temperatures.
“Why are lower temperatures better than higher temperatures?”
When yeast is asked to work on brewing wort at higher temperatures (above 25 degrees) it will produce a large amount of fermentation by-products, such as esters and fusel alcohols. These by-products are responsible for all sorts of weird flavours in beer, flavours that are not associated with good beer. Esters produce fruity type flavours in beer, which in low levels can have a positive effect on your beer but start fermenting above 25 degrees and you will finish up with a beer that tastes like tropical fruit punch. This particular problem is most obvious when using a lot of malt and pure brewing yeasts.
The most common problem associated from brewing at high temperatures with kits is the dreaded “Yeast Bite”. This is particularly nasty and once you have encountered it in a brew you won’t forget it in a hurry. It leaves a foul harsh yeasty bitterness in the beer making it undrinkable. This is a problem we see regularly in the shop during the warmer months of the year, and is one which can easily be avoided with a little forethought and planning.
“How do I stop the brew from getting too warm?”
There are several ways to do this, and these are listed below. No doubt you will have some ideas of your own. All of these methods have been tried and tested by our customers or ourselves.
1. Do not use any boiling water to mix all your ingredients, we add two litres of cold water to the fermenter first, add the malts and stir vigorously. You do not need boiling water to mix your malts and sugars a little elbow grease will do the job nicely. By keeping the initial temperature of the brew down you stand a much better chance of maintaining a reasonable temperature. Aim for a pitching temperature of 22 degrees or below. Another thing to consider is that the while the brew is fermenting it will tend to maintain the temperature it was at when fermentation began. This will occur even when the air temperature around it is as much as 4 to 6 degrees lower. For example if the brew starts to ferment at 28 degrees it will tend to stay around this figure even if the air is 22 to 24 degrees.
2. We recommend you freeze some small-sterilized containers of ice and add them to the brew after you have mixed the malt. This will help to get the temperature down, as water from the tap in Cairns is already 26 to 28 degrees.
3. Brew in the coolest part of the house, preferably an area that gets good airflow. Do not brew in your garden shed it is to hot.
4. If you are having difficulty keeping the brew cool try wrapping a wet heavy cover around your fermenter, towels are ideal. All you will need to do is keep the cover wet. As the water evaporates it cools down the fermenter. If you have ever had an alcohol swab applied on your arm you will now how cold it feels. This is because alcohol evaporates very quickly.
5. The method I find easiest to use is to place the whole fermenter into a trough of water. This is very effective, especially if the brew has overheated and you need to cool it quickly. To maintain an even temperature all you need to do is to freeze some water filled 1.25 litre plastic bottles and place them in the trough.
We keep 8 frozen at all times and once the brew is made we place the fermenter in a plastic crate filled with water and add 4 frozen plastic bottles (Coke bottles are great) change the bottles over each morning and night.
6. One final piece of advice. I find it a good idea to reduce the amount of priming sugar you put in your bottles at this time of year to a level teaspoon. This occurs because during the warmer weather the beer carbonates very quickly in the bottle and, if left for several months, will become very gassy.
Good luck!
PS. Don’t forget to put you beer in the fridge as soon as its finished carbonating this will ensure it lagers down nicely.
Without question, the greatest invention in the history of mankind is beer. Oh, I grant you that the wheel was also a fine invention, but the wheel does not go nearly as well with pizza. –Dave Barry
The problem with the world is that everyone is a few drinks behind. –Humphrey Bogart
Why is American beer served cold? So you can tell it from urine. –David Moulton
People who drink light “beer” don’t like the taste of beer; they just like to pee a lot.–Capital Brewery, Middleton, WI
Give me a woman who loves beer and I will conquer the world.–Kaiser Welhelm
I drink to make other people interesting. –George Jean Nathan
An intelligent man is sometimes forced to be drunk to spend time with his fools. –For Whom the Bell Tolls, Ernest Hemmingway
An alcoholic is someone you don’t like who drinks as much as you do. — Dylan Thomas
You will get an inverted meniscus instead of an extroverted meniscus. — Guinness Spokesperson describing the results of an improperly poured head.
KEGS:
The kegs used in most systems are post-mix kegs, made of stainless steel with a hatch cover for ease of cleaning and filling. They include gas in and beer out valves as well as a safety release valve. These types of “kegs” vary in size from as small as 9 up to 50 liters. The most common is 18 litre and 22 litre, which are ideal for the home brewer as they hold a standard brew.
DISCONNECTS:
There are a couple of different types, pin lock and ball lock (snap lock). We supply ball lock, which are available in stainless steel and plastic and work on the same principle as your standard garden hose fittings, they click on and click off for easy connection and disconnection of the beer and gas lines from the keg.
CO2 GAS BOTTLE:
The gas bottles come in various sizes. The most common and easiest to handle are the “D” size bottle. They are a bit taller than knee height and weigh under 20kg. Other sizes are available but can be quite heavy and difficult to move, not to mention unsightly. Gas bottles are available for hire from BOC Gases or Air Liquid amongst others.
Bottle hire is expensive, usually about $160 per year plus gas and that’s for every year that you have the system. Keg King make a 6kg Steel, Australian approved bottle that is available from most homebrew shops for about $300.00. They can be filled at most gas outlets but you should check with your local gas retailer first. Some Homebrew shops operate a bottle exchange system or refill the bottles for you!
REGULATOR:
A full CO2 bottle will hold a pressure of approximately 800 psi (pounds per square inch) 5600 kpa, that’s a bit more than the 10 psi/70 kpa that’s needed to run this system, so a regulator is a must.
The regulator screws onto the gas bottle and reduces the pressure to safe levels. There are two gauges on the regulator, one for gas bottle pressure, the other for keg working pressure. The CO2 in the bottle starts out as a liquid and the pressure of the gas in the headspace of the bottle will be between 700 and 800 psi (5000 – 5600 kpa) depending on the temperature of the bottle.
The high pressure gauge on the regulator will only begin to fall when all the liquid is gone.
The best way to estimate how much CO2 is left in the bottle is by weight not pressure, so make a habit of weighing your bottle when you first get it. The bottle will be weighed and stamped when empty.
PREPARING THE FRIDGE:
Like bottled beer your kegs will need to be kept cold. With a standard keg holding a full batch of beer and being somewhat bigger than a bottle your fridge is going to need to be changed to suit your kegs, you may need to remove some or all of the shelves, you may also have to level the base.
Some older fridges are not level at the bottom and will need to be leveled. Use whatever suits you best.
You will need to drill a small hole to bring the gas line from the regulator into the fridge. Whether you choose the side or back of fridge is up to you.
NB: Make sure all power is disconnected prior to drilling.
Try and use a drill bit just large enough to allow gas line to fit snugly through hole. Before sealing gas line make sure there is sufficient length of line to reach out of the fridge.
NB: The wiring systems and cooling systems will vary from fridge to fridge so take care when drilling any holes in your fridge.
If your keg system is going to have a beer gun it’s just a matter of cutting the beer line to a length that suits you and attaching the gun to one end of the line and the beer disconnect to the other. The length of line should be between 1.5 and 2 meters long. If you choose to have a tap, there are more holes to be drilled. As stated before, take care when drilling. The position of the tap is your choice again. If putting the tap on the door of the fridge, make sure there is enough beer line so that the door can still be fully opened.
If deciding to put the tap on the door, when you tighten the back nut it may collapse the interior of the door. We have found a small length of PVC pipe pushed over the shank of the tap allows the tap to be tightened so that it is secure, without damaging the interior.
FILLING THE KEG:
Ferment your beer in the normal way. The day before fermentation is completed is the time to clean and sterilise the keg. You can use most of the liquid sterilizers sold in Homebrew shops in the same way that you would sterilise your bottles.
We have found the best way is to 3/4 fill the kegs with water and liquid sterilizer, hold the lid in place and fill with gas (40 PSI or 280 KPA ) allowing the pressure from the gas to seat the lid in place and then clip the lid down. Turn the keg upside down for about 4 hours and let the sterilizer get into the fittings at the top of the keg. If bacteria is going to grow this is the most likely spot. Then turn the keg upright and leave for another 4 hours to clean the bottom of the keg. Once this is complete release the gas, pour out the sterilizer and rinse with clean water.
The transferring of the beer to the keg is as simple as racking directly into the keg via a piece of clear sterilized tubing, cut to length so that it reaches from the tap of the fermenter to the bottom of the keg.
You will notice that there is a tube in the keg running from the top of the keg to the centre of the bottom. This is called the Drip Tube, this is how the beer is drawn from the keg. There is also another tube that is quite short in length. This is the Co2 inlet, where the Co2 is injected into the beer.
Your keg should be filled to approximately 12-25 mm (1/2 to 1 inch) from the bottom of this tube.
Now the keg is full replace the hatch cover and move keg to the fridge. Assuming your gas line was cut to length it should be long enough to reach outside the fridge so you can connect it to the gas bottle. Turn the gas bottle on and set pressure on regulator to 40 PSI or 280 KPA, hold the lid in place and connect the gas line to the keg. Allow the pressure of the gas to seal the keg and then clip the lid down.
What we have to do now is purge the air from the headspace of the keg and replace it with CO2. This is done to protect the beer from oxidisation. By lifting the pressure release valve the CO2 will flow into the keg and the air will flow out through this valve. This is called burping the keg and is best done in half a dozen short bursts.
CARBONATING:
The absorption of the CO2 into your beer can depend on many things, most particularly the temperature of the beer, the pressure at which it is applied and the length of time pressure is applied.
The CO2 will be absorbed at a faster rate when the beer is cold (the beer will not absorb gas as well at room temperature) so if you apply 40 psi (280 kpa) continually for 36-48 Hours under normal refrigeration temperature your beer should be ready to try.
We have found that two days at this pressure gives the correct carbonation. Depending on personal taste you may like more or less so there is some trial and error to find what is best for you, eg. For an English type Bitter you may prefer a lower rate of carbonation but on the other hand you may be making a German Weizen which should be more effervescent so again the rate of carbonation is up to you.
A short cut to this process which we have found works very well and is consistent, is to burp the keg as described and then while the gas line is connected and the pressure is set at 40 psi (280kpa) lay the keg on its side with the gas post on the top side. Rock the keg back and forward with your foot vigorously and you should start to hear the gas pumping into the keg. Continue this process until you cannot hear any more gas going into the keg.
Go and have a beer (About 5 minutes) and then repeat the process. Keep doing this for about 30 to 40 minutes on and off. After this time you should notice that you can not hear any gas going into the keg when you rock it which should mean the keg is gassed. To use this system you will need to make sure you have a long gas line, about 2 metres so the keg can be gassed outside the fridge. Once the keg is gassed you can either store it in the fridge or outside if you do not have the fridge space.
DISPENSING:
Now for the good part pulling that first beer.
First reduce your keg from carbonating pressure to dispensing pressure. Do this by turning down the set screw on the regulator, if the pressure doesn’t come down as you turn the screw you may have to vent the keg using the safety relief valve to release the excess pressure. A suggested dispensing pressure is 10 psi/70kpa.
Even though the beer that you kegged may have been clear you will still get some settlement at the bottom of the keg so the first glass may be not what you expected. We suggest pulling a couple of glasses through until it clears. Whether using a gun or a tap always dispense with it fully open, if it’s used part way opened you will end up with all froth and no beer.
Dispensing like carbonating can be trial and error, plenty of practice will see your right!
Having installed a keg system in your own home you have come a long way from the teaspoon of sugar in a long neck and it should give you many years of enjoyment. To convert psi to kpa multiply psi x 7 = kpa.
Slow air-lock bubbling can continue for an extended period of time in the perfectly sealed fermenter. Ascertain the correct time at which to bottle by either using your hydrometer or alternately by the visual signs. If you take two hydrometer readings 24-48 hours apart and the reading is the same for both readings, fermentation is complete and it is time to bottle/keg your beer! Don’t use the air-lock to determine when to do anything, home brewers all too often leave the brew in the fermenter too long because of slow air-lock bubbling and your brew will spoil fairly quickly if not bottled/kegged at the correct time.
Sep01
My Beer Tap is leaking will I have to buy a new one?
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No – seal kits for beer taps and pluto guns are available on our website, or from most homebrew shops and are easy to fit.
A Kit normaly includes O-rings, springs, clips etc
A: The priming sugar has been missed or incorrectly measured. It is quite easy to miss putting sugar in a bottle during the bottling process.
B: The cap has not been clamped on properly or sufficiently, this is a common problem when using hand cappers.
C: You put the bottles straight into the fridge after bottling, instead of leaving them out for the first 2-3 weeks to secondary carbonate.
It is quite normal to feel a bit wary about hitting the bottle too hard when using a hand capper, and therefore leaving the cap a little loose. If you have been persisting with a hand capper, do yourself a favour and buy yourself an auto capper and I guarantee you won’t look back!
Twist top bottles can also present a problem because they tend to jam into the bell of the capper and are twisted out. Under such circumstances they should be tilted out and not twisted out as this can lead to the cap being loosened.
Sep01
Will It Hurt The Beer to Take it Out of the Fridge?
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No, it should not be a problem. Due to the fact that as long as the keg is sealed and full of CO2, bacteria wont be able to grow, so your beer shouldn’t go off. It would however be a good idea to give it a quick squirt with a bit of Co2 for a minute at 40 psi (280kpa) to make sure the keg is sealed at a decent pressure.
Once the keg has been gassed and the oxygen purged from the keg it can be stored out of the fridge. We do this ourselves as we often have to many kegs full of beer to fit in our fridges.
However the beer will age much faster if it is kept in the fridge and I will explain why.
Beer that is consumed early is often described as green. What you actually taste is the live yeast in the beer. As yeast is a living organism it needs three things to survive, Warmth, Oxygen and Food. The beer has a ready supply of food; we call it our beer, so that leaves the oxygen and warmth to remove. We have removed the oxygen when we pumped CO2 into the keg and purged the beer so all we have to do now is remove the warmth by putting it in the fridge. By removing both the oxygen and warmth from the beer the yeast dies faster and the beer ages faster!
Sep01
I Keep Getting A Yeast Taste In My Beer?
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This is a problem frequently experienced and has three main causes:
1/ Poor hygiene is the most common cause so ensure you sterilize everything with a quality sterilizer. We recommend the ‘Liquid Solution (Stericlean) 1L’ because it has the ability to clean and sterilize. Sodium Metabisulphite and No Rinse Sterilisers can be used but remember they do not clean your equipment, they sterilizer only!
2/ When sterilising your kegs, ensure the keg is filled with sterilizer, sealed with Co2, then turned upside down overnight. This will allow sterilizer to get into the keg posts and other fittings which have a habit of harboring bacteria. Also make sure to run steriliser through your beer lines periodically to maintain a clean and sterile system!
3/ Fermenting at too high a temperature, commonly causes a yeast taste in the beer due to excessive heat. Make sure you ferment your beer as cool as possible (no hotter than 25C being ideal) and use only cold water for making your wort during summer. We recommend you freeze some small sterilized containers of ice and add them to the brew after you have mixed the malt. This will help to get the temperature down, as water from the tap in FNQ gets extremely warm during summer!
Sep01
How Long After I Keg My Beer Can I Drink It?
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Once the beer is put into the keg it needs to be gassed with C02 (which usually takes 36-48hrs), then the beer needs a couple of days to absorb that gas. It is drinkable after a few days of being gassed, however it will still be extremely ‘green’ and not ideal! 2-3 weeks after gassing would be a minimum time frame to allow for a nice beer, 6 weeks or more in the keg would improve your beer quality substantially!!
Sep01
My Beer In My Keg Is Flat And Has No Gas, Why?
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Flat beer in a keg is usually due to the keg being under gassed or the keg having a gas leak. Before you gas the keg a second time you will need to check the keg for leaks. To do this you need to set your regulator to 40 psi (280kpa) and pump gas into the keg for about 5 minutes. This will be enough to test the keg. Once the keg is full of gas get a spray bottle with a mixture of dishwashing detergent and water and spray the mixture onto the Hatch Cover, Gas Post and Liquid Post, lines and fittings. Don’t be shy with the detergent and make sure the whole area is covered with the solution (detergent and water).
If bubbles appear you will be able to see the leak and need to repair the keg. Usually it’s the Popette valves in the gas and liquid posts or it’s the Hatch Cover Seal. All of these parts are available from us online. If no bubbles appear around the Hatch Cover, Gas Post or Liquid Post you should spray detergent all over the keg especially around areas where the rubber head or toe of the keg joins the stainless body of the tank. These areas are pron to rusting under the rubber and getting pin hole leaks.
If no bubbles appear it is safe to say the keg is OK and you should proceed to re-gas the keg. When gassing a keg the easiest method is to attach your gas line, turn it to 40psi (280kpa) and allow it to sit under pressure for 36-48hrs.
While a beer hydrometer can be used to monitor the progression of fermentation, a lot of home brewers have difficulty getting an accurate reading. Below is an easy to follow guide on how to use your hydrometer.
Hydrometer readings are typically taken before pitching the yeast and after visible signs of fermentation have ceased. It is generally not recommended to take more samples than necessary because each time the fermenter is opened to draw out wort, you are introducing the risk for contamination.
Place the wort sample in a vessel big enough to allow the hydrometer to freely float without hitting the bottom or sides of the container. Use a test tube, or you can sometimes use the container the hydrometer came in. Once the liquid is in the container, place the hydrometer in the sample and give it a gentle spin. The hydrometer will eventually settle and you can take your reading. Sometimes the hydrometer will stick to the side of your vessel, so make sure it is floating freely before you take the reading!
General rule of thumb is that if you take two hydrometer readings 24-48hrs apart, and you get the same reading both times, fermentation is complete and you can now bottle/keg your beer.
Important Note: After you are finished, do not return your sample to the fermenter, as it could cause contamination. Instead, taste the sample to get an idea of what to expect from the final product, and discard it.
Sep01
My Beer Is A Bit Watery And Tastes A Bit Like Cider! Why?
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Usually this stems from using white or raw sugars in your wort. Sugar (or sucrose) contains fructose. Fructose is a complex sugar and hard for your yeast to break down, often in this process of breaking down this fructose your yeast will create unwanted esters (off flavours such as cidery, fruity or bitter flavours) that make your beer taste unpleasant. You can avoid this by using dextrose or brewing blends to ferment with your beer tin concentrate!
In general, beer should be stored in a cool, dry place out of direct sunlight. After secondary fermentation is completed, placing your beer in the fridge will greatly increase the aging process. Cooler climates often use cellars to store beer, which works quite well, in the tropics however we are not so lucky, so the coolest place you can keep your beer would be the best!
Bock is a style of lager beer which originated in Germany. It was traditionally brewed in the fall, at the end of the growing season, when barley and hops were at their peak. It was “largered” all winter and enjoyed in the spring at the beginning of the new brewing season. Bocks can be pale (helles) or dark (dunkles) and there are double (doppel) bocks which are extra strong. Bocks are usually strong beers made with lots of malt yielding a very full-bodied, alcoholic beer.
A persistent myth has been that bock beers are made from the dregs at the bottom of a barrel when they are cleaned in the spring. This probably seemed logical because of the heavier body and higher strength of bocks. From a brewing standpoint, this is clearly impossible for two reasons: 1) The “dregs” left after fermentation are unfermentable, which is exactly why they are left over. They cannot be fermented again to make more beer. 2) Any attempt to re-use the “dregs” would probably result in serious bacterial contamination and a product which does not resemble beer as we know it.
Lagers are brewed with “bottom-fermenting” yeasts at much colder temperatures, 12-16C over long periods of time 3-4 weeks. Often after this time brewers will then drop the temperature dramatically (2-4degrees) for another couple of weeks to help clear the beer. This is called often called “cold crashing” or “lagering”. Lagers include bocks, doppelbocks, Munich- and Vienna-style, Märzen/Oktoberfest and the famous pilsners. Pilsner beer originated in the town of Pilsen, now in the Czech Republic and was the first non-cloudy beer.
Ales are brewed with “top-fermenting” yeasts at closer to room temperature than Lagers, generally 17-24C (although generic ale yeast can handle up to 30C). Usually ferment ales for 2-3 weeks at the lower temperatures (18-20 degrees), or 7-10 days in warmer weather (26-28 degrees). Ales encompass the broadest range of beer styles including bitters, pale ales, porters, stouts, barley wines, trappist, lambic, and alt. The British Isles are famous for their ales and it is a popular style with homebrewers.
Beer is an alcoholic beverage made from malted grains, hops, yeast, and water. The grain is usually barley or wheat, but sometimes corn and rice are used as well. Fruit, herbs and spices may also be used for special styles.
In the distant past, the terms “beer” and “ale” meant different things. “Ale” was originally made without using hops, while “beer” did use hops. Since virtually all commercial products now use hops, the term “beer” now encompasses two broad categories: ales and lagers.
Sep01
How Is Specific Gravity Related To Beer?
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Specific gravity is a measure of the density of a liquid. Distilled water has a specific gravity of 1.000 at 15C and is used as a baseline. The specific gravity of beer measured before fermentation is called its Original Gravity (OG). This gives an idea of how much sugar is dissolved in the wort (unfermented beer) on which the yeast can work. The range of values goes from approximately 1.020 to 1.160 meaning the wort can be from 1.02 to 1.16 times as dense as water. When measured after fermentation it is called the Final Gravity (FG).
The difference between these two values is a good gauge of the amount of alcohol produced during fermentation. The OG will always be higher than the FG for two reasons. First, the yeast will have processed much of the sugar that was present, thus, reducing the gravity. And, second, the alcohol produced by fermentation is less dense than water, further reducing the gravity. The OG has a significant effect on the taste of the final product and not just from an alcoholic standpoint. A high OG usually results in beer with more body and sweetness than a lower OG. This is because some of the sugars measured in the OG are not fermentable by the yeast and will remain after fermentation.
Technically speaking, draught beer is beer served from the cask in which it has been conditioned. It has been applied, loosely, to any beer served from a large container. More recently, it has been used as a promotional term for canned or bottled beer to try to convince us that the beer inside tastes like it came from a cask.
Sep01
Does Using A Dry Enzyne Make Diabetic Beer?
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Dry Enzyme’s will help make a low carb beer, as it is designed to turn carbohydrates into fermentable sugars & let your yeast ferment them then into alcohol. You will find you get a dry crisp beer when using the enzyme, and should get a lot less unfermented sugars in your finished product and in turn a lower carb beer than normal fermentation. However consult a doctor if you are a diabetic, to make an informed decision on you diet, and what is ok for your circumstances.
Diet and Diabetic Beer must conform to regulations and the main requirement is that they contain no unfermented sugars, no matter what the alcohol level is. In home brewing we assume that fermentation (both primary and secondary) ferments all the sugars available; however, the yeast cells usually leave a small percentage just as you don’t eat all the crumbs on your plate, & some higher sugars are un-fermentable.
Special formulation and treatments are necessary to ensure that regulations are met, when breweries make diet beer. Home brewed beers will always contain some minute quantities of unfermented sugars: however, many diabetics will tell you that well matured home brews give them fewer problems than non diabetic commercial beers.
All home brews with the help of ‘finings’ should clear reasonably well in the fermenter before bottling/kegging, then should settle out in the bottle/keg to be crystal clear. If your beer refuses to clear after a reasonable time, ten to one it’s affected by one of the following problems:
1. Oxidization – This is caused by excessive exposure to oxygen during bottling.
2. Starch haze – This means a hazy state created by the addition of starchy additives to the brew.
3. Chill haze – Occasionally when a beer is chilled. It may become slightly hazy. This condition can occur with any beer. It is caused by a slightly higher than normal protein content in the basic ingredients. The beer is perfectly all right. There is no effect on taste, as it is a natural occurrence. Save these ones for black outs, by the way, chill haze is quite common and natural in wheat beers.
The making of “ice” beers, in general, involves lowering the temperature of the finished product until the water in it begins to freeze and then filtering out the ice crystals that form. Since water will freeze before alcohol, the result is higher alcohol content. The ice forms around yeast cells, protein particles, etc. so these get removed as well; leaving fewer components to provide taste and character.
This process is not new to brewing, having been developed in Germany to produce “eisbocks”. Apparently they were produced by accident during the traditional spring celebration with bock beers. Spring, being the capricious season that it is, probably sent a late cold snap around one year causing some of the spring bocks to partially freeze. People drank it anyway and liked the change in flavour.
Sep01
Froth/Foam Is Coming Through The Air-Lock, Should I Be Worried?
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This is a common problem in hot summer conditions! Absolutely no harm befalls the brew; it will generally only happen in the first stages of fermentation and can be prevented by starting and fermenting your wort cooler (if possible). Simply wash the airlock, refill with water and put back in place!
Sep01
My Brew Temperature Dropped To 10 Degrees, Will This Hurt My Beer?
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Yeast does not like dramatic changes in temperature but unlike brewing too hot, low temperatures do not create problems as far as taste or clarity.
When the temperature drops below the optimum temperature for the yeast you are using it simply goes dormant. When the brew heats up the yeast will activate again.
Of course in this situation you do want to warm the brew up, wrap it in a towel/blanket, use a heater pad or heater belt to maintain a constant temperature where possible. It is more detrimental brewing too hot than too cold.
Certain bottles or even whole batches of your beer may at times become over gassed, while not necessarily exploding. This can be caused by bottling to early, as the beer is still fermenting it will continue to do so in the bottle and can cause over gassing (if bottled much to early these bottles could explode).
Always use a hydrometer to be sure your beer is ready to bottle. Another cause could be infection (if the beer taste bad you will know that is the reason), make sure to clean and sterilise everything thoroughly before use. Lastly this could be caused from putting too much carbonation sugar into the bottles, using a sugar measure or carbonation drops will help make sure you are accurately carbonating each bottle.
You can put the over gassed bottles into the freezer and cool them right down to near freezing, then keep in the refrigerator, this can sometimes help! Or other people choose to uncap and re seal their bottles to let out some of the pressure, although this does pose some risk if infection due to exposure to oxygen.
As commercial beer contains no sediment in the bottles, some home brewers become obsessed with achieving the same with their brews. It is impossible unless you keg it. There is always a small final sediment in the bottles of home brewed beer. If the beer is made correctly, the sediment should be similar to a coat of paint on the bottom of each bottle.
The obsessed brewers leave the beer in the fermenter for weeks after fermentation only to find it has spoiled. They try to filter the beer, only to oxidise (allow to be affected by oxygen) or contaminate the beer, thus ruining it. The answer is compromise and understanding. Allowing your brew short but sufficient time to settle before bottling is the only way to produce good beer to measure accurately.
Wine is fermented fruit juice. The fruit that we recognize as the basis of wine making is the grape and the variety of wines that can be made from grapes if truly amazing.
However, grapes are just one of hundreds of fruits that can be made into wine. Apple, pears, peaches, apricots, cherries and berries can all be used to make wine. In fact, if you can extract juice from a fruit, you can use it to make wine.
In the area of preventing degradation of the quality of the juice between the time you start handling the fruit until the time you eventually get the fermentation going. It is during this period that fungi and bacteria can attack the fruit and juice and spoil it. It is also the time when oxygen in the air will cause changes in the juice that will reduce the quality of the finished wine.
This is a particularly important factor because it occurs very quickly and almost without you noticing it. A good way of illustrating this point is to remind you what happens when you cut a pear in half or peal a banana. They go brown very quickly. This is caused by oxygen in the air and it spoils the fruit. The same thing occurs in grape juice or any other juice for that matter. You may not be able to see it happening but you can be sure that it does, and the end result will be wine with unpleasant colour and taste.
To get it right, juice extraction needs to be made very quickly with special equipment. The best thing to do is get an expert to do it for you and this is where wine kits come into the picture.
The better quality wine its most basic form, wine making consists of extracting juice from a suitable fruit, adding yeast to it to make it ferment, clearing it when the fermentation is finished and then bottling it to let it mature and improve.
Extracting juice can be difficult and requires a lot of work. It can also involve lots of problems particularly kits that are available these days are made from real vintage quality grape juice that has been clarified, stabilized, Concentrated by removing water from the juice and thematically sealed.
This makes the juice easier to transport and free of spoilage caused by air, fungal and bacterial contaminants. All the problems described above are eliminated.
The grape varieties that you can get are from all over the world and the wines you make from these kits are well balanced and true to type.
Because of the wide variety of wine kits on the market we only stock the most popular varieties although we can order in as required.
What is needed to make Wine.
Wine kits are made with ease of use in mind. The equipment required is quite simple and most beer or spirit makers will already have the majority of the equipment required.
A 30 litre plastic fermenter for the initial fermentation stage.
A digital thermometer to stick to the outside of the fermenter
A 25 litre plastic fermenter for the secondary fermentation stage.
A long plastic spoon
A hydrometer to test the wine.
A siphone hose to transfer wine into second fermenter.
A bottle of sterilizer
30 corks although you could possibly use screw top wine bottles.
A corking tool to compress the corks and insert them into the bottle.
Basic steps to making wine and using wine kits.
The steps listed are very basic. The actual process is a little more detailed but no harder than making beer or spirits. If you want to know more call into the shop and we will give you a full set of instructions.
Primary fermentation
Add wine kit to fermenter and top up to 23 litres with water.
Check the specific gravity with your hydrometer.
Ensure temperature is between 18 to 24 oC
Secondary Fermentation
After 5-7 days check specific gravity and if reading is less than 1.010 transfer wine to second fermenter.
Stabilizing
After 10 days check specific gravity, it should be 0.996
Dissolve metabisulphite and sorbate into wine and stir vigorously for 2 minutes.
Clarification and bottling.
After 8 days check wine for clarity, if not completely clear, leave the fermenter for another 7 days. Do not bottle cloudy wine!
Syphon wine into clean, sterilized bottles. Leave bottles upright for 3 days.
Mature your wine
Try to let your wine mature for a reasonable period. Three months would be good and it would be great if you could leave a few bottles for up to 12 months!
Aug31
Why is my yield of distilled spirits so low?
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Your wash has most probably not fermented out properly. Make sure you are fermenting in an area under 30 degrees, and always check your wash with a Hydrometer before distilling. The correct reading for a finished wash is 990 on your hydrometer. Check your still for any steam leaks, and make sure you are following the operating instructions.
I love scotch…scotch scotch scotch….rum too, oh and bourbon as well. Actually I’m partial to the entirety of the brown spirit family. On the rocks, mixed with coke, mixed with ginger beer, its all good to me. Actually my love for the dark spirit has pushed me at times, no I’m not talking about borderline alcoholism or constant partying. No I much prefer a quite one or two at home, where I can really begin to appreciate the merits and uhh, demerits of my fine brews.
This fun little past time however has made me wonder, made me think, almost forced me at times to seek out the best spirit I can, forced me to tinker and play with my spirits, developing and re-developing my favorite drink. It is a never ending cycle but one that I love and I feel it is almost my duty to pass on the things I have learnt.
Let me first start by saying don’t feel pressured reading this article, most people find that just using an essence is fine, so do I, its just on special occasions its nice to know you have something truly fantastic in the cabinet. I have come across many a skeptic in my time, the snobby nosed ‘high class’ citizen who hear’s home brew and goes yuck! Its just nice to know you have something really capable of changing opinions.
Apart from creating your own essence, there is basically two ways of modifying your spirit. Either oaking or tailoring with an assortment of extracts (profiling). Lets start with the most simple and better known of the two, oaking.
Oaking: Oaking is a relatively simple concept. It involves soaking your neutral filtered spirit on wood. But not just any wood, most oak chips come from old whisky or bourbon barrels, used by breweries for centuries to soak there own spirits on. In turn the barrels have absorbed the flavor from the spirit, this is what you are trying to obtain from them (except in the case of “American Oak” chips, which are simply from an American oak tree).
Oaking you spirit will not only receive the flavor and receive the colour from the chips, but as you might have guessed, that woody and sometimes smoky flavor that is so prized in some of the top quality spirits.
The method is simple but varies slightly depending on the type of chip and the brand. In general it involves soaking 10gms-50gms of oak chips for every litre of spirit for about 1-3 weeks (dependant on taste). The longer you leave it the more flavor and woodiness it will impart. You can often reuse the same chips once or twice after, just soak it for longer.
Some people use the flavour just from the oak chips itself whilst others use it in conjunction with an essence, in an attempt to add an build on the flavour profile already present in the essence. If, and it will probably happen eventually, you leave it for to long and you find its like drinking bark, you can use more neutral spirit (unflavoured) and an essence to dim it down and smoothen it out.
Using Extracts: The best way to go about using extracts and flavour profiles is to obtain a whisky profiling kit. These kits come with all the basics that you need, plus some instructions and recipes and give you an easily to follow guide on what to do and how to go about it. The kits come with 4 different whiskies base essences, which generally the 4 different major styles of whiskies (as reflected by the different regions of Scotland), Lowland, Highland, Irish and bourbon.
The also come with a range of adjunct flavours used for exentuating certain flavour profiles in you drink. These Are:
- Oak cask (the main flavour which is present in most whiskys)
- Sweet vanillin (a sweet vanilla flavour with a slight sherry flavour)
- Peat Smoke (A strong almost pungent peat smoke flavour, a very prominent note in Scottish Whiskies)
- Astringent Notes ( A sharp bitter astringent flavour that helps to add some bite to the whisky)
- Fruity Esters (more prominent on the nose then anywhere else, they add a lot to the whisky bouquet)
- Cereal notes( often described as grainy, these flavour notes are a part of any grain and are contained in the whisky bases)
- Carob Notes ( a chocolate grain flavour that results from the use of some mildly roasted grains)
- Cedar Oak ( imparts a distinctive drier oak flavour, often found in Irish whisky styles)
- Distillers Caramel (purely for colour, imparts a warm golden hue)
- Glycerine (contribute to smoothness and mouth feel)
Using just this small list of flavours you can create almost any whisky, bourbon and add to many rums. What you do with them is up to you though!
The only way your going to know what your spirit can be is to try it. It was with the best of intentions that we all started homebrewing. We wanted to save money, maybe we wanted drink something a littler healthier? But somewhere along the way our intentions have changed, no longer do I homebrew just to save money, I homebrew to make the best quality drink I possibly can and I am proud to call it my own.
Ingredients:
- 1.7kg Morgans Stockmans Draught,
- Premium Blend (Brewing Blend),
- 15gr Nelson Sauvin Hop,
- 15gr Cascade Hop,
- American Ale Yeast (Safale US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Stockmans Draught Tin and the Premium Blend, mix well. Add 12gr Cascade Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. On day 4 of fermentation, open your fermenter lid and add the 12gr Nelson Sauvin Hops to the brew dry. Leave the brew to finish fermenting (using a hydrometer to check) then bottle/keg.
Ingredients:
- 1.7kg Morgans Canadian Light,
- 1.5kg Morgans Lager Pale Malt,
- 12gr Hallertau Hop,
- 2 x Saflager W-34/70 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Canadian Light Tin and the 1.5kg Lager Pale Malt tin, mix well. Add 12gr Hallertau Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Stockmans Draught,
- 1.5kg Morgans Beer Enhancer,
- 2 x 12g Amarillo Finishing Hops,
- American Ale Yeast (Safale US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Stockmans Draught Tin and the 1.5kg Morgans Beer Enhancer Tin, mix well. Top up to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. On day 4 of fermentation, open your fermenter lid and add both 12gr Amarillo Hops to the brew dry. Leave the brew to finish fermenting (using a hydrometer to check) then bottle/keg.
Ingredients:
- 1.7kg Coopers Australian Pale Ale,
- Premium Blend (Brewing Blend),
- 12gr Cascade Hop,
- American Ale Yeast (Safale US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Coopers Pale Ale Tin and the Premium Blend, mix well. Add 12gr Cascade Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Australian Gold,
- Gold Blend (Brewing Blend),
- 12gr Pride Of Ringwood Hop,
- 2 x Saflager W-34/70 Lager Yeast (ferment wort At 13 degrees)
(If unable to ferment at lager temperatures [12-13 degrees] then use 1 x American Ale – Safale US-05 Yeast instead)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Australian Gold Tin and the Gold Blend, mix well. Add 12gr Pride Of Ringwood Hop (tea bag) into the fermenter (with the boiling water mix) and allow to stand for 10-15 minutes. Top up fermenter to 23 litres with cold water and sprinkle Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
Ingredients:
- 1.7kg Morgans Stockmans Draught,
- 1.5kg Morgans Wheat Malt,
- 2 x 12gr Cascade Hop,
- American Ale Yeast (Safale US-05)
Method:
Pour 2 litres of boiling water into your fermenter, Add the 1.7kg Stockmans Draught Tin and 1.5kg Wheat Malt Tin, mix well. Top up fermenter to 23 litres with cold water and sprinkle American Ale Yeast into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. On day 4 of fermentation, open your fermenter lid and add both 12gr Cascade Hops to the brew dry. Leave the brew to finish fermenting (using a hydrometer to check) then bottle/keg.
Ingredients:
- 980gr Morgans Ginger Beer Tin,
- 500gr Light Dry Malt (Brewing Sugar),
- 500gr Dextrose (Brewing Sugar),
- 500gr Corn Syrup (Brewing Sugar),
- 1 tsp Ginger Powder (Optional).
Method
Pour 2 litres of boiling water into your fermenter, Add the 980gr Ginger Beer Tin, 500gr Light Dry Malt, 500gr Dextrose and 500gr Corn Syrup then mix well. Top up fermenter to 18 litres with cold water and sprinkle Yeast and Yeast Nutrient (comes with ginger beer tin) into wort. Put lid on fermenter and airlock in place full of water and allow to ferment. Use a hydrometer to check when your wort is finished fermenting, then bottle/keg.
- NOTE: Total volume is 18 litres not 23 litres like most beer tin instructions.
This condition can only be caused by excess sugars in the bottles after capping, and this could have been created in two ways.
1/ You may have bottled too early, when there were still unfermented sugars in the brew. This can often happen when the actual brewing is during winter. In cold conditions, a brew can ferment reasonably while fermentation is active (generating a bit of heat) but can stop prematurely when the activity lessens. The remaining unfermented sugars will in time over gas the bottles.
2/ You may have added too much sugar to each bottle. Some people are of the opinion that if one teaspoon to each bottle makes a good brew then three teaspoonfuls will make it even better – NOT SO. Crazily, some still believe that the alcohol content of the finished beer depends on the sugar you add to each bottle. You may have primed a bottle twice with sugar. It’s easy to do – If the odd bottle is inconsistent with the rest of the batch, you have doubled up.
If a beer refuses to form and then hold a good head, it can be either the beer is under gassed (more prominent in a keg situation) or insufficiently matured. Beer that has had longer to mature means the alcohol and the C02 have had longer to bond, the Co2 molecules are now smaller which take longer to float to the surface of your glass of beer and pop, in turn the head holds longer!
Corn Syrup (or moltodextrin) will help with achieving a better beer head, usually add 250-500gr per 23 litre brew at the beginning of fermentation (add with tin of beer concentrate and additional brewing sugars).
Note: Beer glasses that have been washed with dishwashing detergent or put through a dishwasher will seldom hold a head as the detergent puts a film onto the glass.
Aug29
My keg is over Gassed what should I do?
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Sometimes when you first pour a beer you get to much head and it appears the keg is over gassed. This is because the tap which is outside the fridge is warmer than the beer in the keg and when the beer passes through the warm tap the beer foams up giving the appearance of being over gassed. Once you have poured a couple of beers this problem usually goes away.
If your keg is over gassed you will need to purge some gas out. First thing is to turn off the gas to at the bottle and simply purge the gas through the release valve until no more gas comes out. Wait about 10 minutes and pour a beer. You will often find the gas pressure in the keg has built up again and there will be enough gas to pour a beer without turning the gas on at the bottle, you may have to repeat this process a number of times depending on how over gassed you keg is. If no beer comes out when you try to poor a beer turn the regulator down to about 5psi/35kpa and try pouring again.
If the keg is still over gassed you may need to leave the release valve open for a number of hours or even overnight. Sometimes when you do this you end up releasing too much gas and the beer ends up flat. If this happens don’t worry just hook the gas back into the keg and set the pressure at 40 psi (280kpa). Gas the keg for about an hour and leave it sit for about 4 hours to absorb the gas. Then set your regulator back to the pour pressure and try again. Remember there is not hard and fast rule to degassing a keg so it will be a bit of trial and error. Good luck
Aug29
My beer tastes great but I would like it to be clearer!
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Finings is the generic name given to clearing agents used in beer or winemaking. The principle behind all forms of finings is to act as a flocculent, which causes impurities to gather through the medium of positive and negative charges into large enough clumps to make them sufficiently heavy for gravity to take effect and allow them to sink to the bottom of the fermenter.
Finings are normally added 2 days before fermentation is complete. However, I do not like to open my fermenter and expose it to air so I recommend you add the finings at the beginning.
How to use finings:
Dissolve the finings in a cup of warm water (not hot) and add to the wort approx 2 days before kegging/bottling your beer. Due to the added risk of infection by opening the fermenter at such a late stage in fermentation, some brewers prefer to dissolve the finings in a cup of warm water (not hot) and add to the wort at the preparation stage, just before pitching the yeast.
Aug29
Which sugar should I use for the bottles?
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We recommend using carbonation drops, they are a pre measured tablet able to be dropped into both stubbie and tallie bottles. Easy to use and no risk of over-carbonating! If you prefer to use a measure ‘Carbonation Sugar’ is often sold at most homebrew outlets (including online by us) and is a super fine, easy to measure granulated sugar. Use a ‘Sugar Measure’ to ensure the correct amount is put into each bottle.
This is the most common problem of all, never trust the airlock as this often means little as to weather your brew is fermenting properly. Usually the brewer assumes the brew is not fermenting so “Out she goes” when often it is perfectly fine! Fermenters do not always seal well and if not sealed, the air lock doesn’t bubble.
First, assess the situation properly by taking a hydrometer reading or by looking for visual signs of fermentation (a ring of foam around the water line, or condensation in the lid is a good sign). If the brew is still fermenting, seal it as well as you can and allow it to finish. If it is already finished, bottle immediately. Don’t throw it out without sampling a small amount out of the tap, as it’s quite possibly OK!
To quote Michael Jackson: “If you see a beer, do it a favour, and drink it. Beer was not meant to age.” Generally, that is true. However, some beers that are strong and/or highly hopped must age to reach their full flavour potential.
How a beer is conditioned and handled has a great affect on its shelf-life. Beer conditioned in the bottle (Home Brew Beer) or cask still contains live, active yeast and should be drunk as soon as possible. Most larger scale, commercial beers have been filtered or pasteurised to remove/kill the yeast and stabilise the product for the longer storage times encountered in the retail world.
In any case, stored beer should never be exposed to heat or strong light. Most literature says that 2-6months is optimal for beer to be at its best, as hop flavours start to diminish after this time. however I have drunk beers that were 2 years old in the bottle (kept in optimal conditions for that time) and they have tasted great!
Aug29
Something tastes a bit “off”. What have I done wrong?
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Any off flavours in a finished beer is the result of contamination or excessive heat during fermentation. This could be caused by the water you’ve used in the brew, poor hygiene or exposure to contaminants late in fermentation, or during bottling; If only the odd bottle tastes “off” then the problem is with your bottle hygiene or splashing during bottling.
Should the whole batch taste crook, pay more attention to your method of brewing and sterilisation next time. For instance, a common contamination often comes at the end of fermentation. That is if you were to open your drum very late, then reseal it and leave for a few days prior to bottling, allowing oxygen in and bacteria to grow. Chances are there will be a white film on the surface of the brew when you go to bottle, this form of contamination can also appear in the bottles.
A good tip is to always bottle as soon as possible after fermentation finishes!
Aug29
How Do I Calculate My Beers Alcohol Content Using A Hydrometer?
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Don’t worry, understanding hydrometer readings has been confusing people for years. Here is a simple explanation on how to check the alcohol content of your beer.
First you need to understand what you are measuring.
During the brewing process yeast is added to malt and some other fermentable ingredients, maybe dextrose, and during fermentation the yeast organisms eat the malts and sugars and produce alcohol.
The density of the sugar in the water is lower than the density of alcohol so you use a hydrometer to measure the specific gravity of the solution before and after fermentation.
The volume of the alcohol in the solution can be calculated as follows.
Specific Gravity at the start of fermentation, minus the specific gravity at the end of fermentation, divided by 7.36.
So let’s go through this step by step.
1/ Mix all your ingredients in your fermenter and take a specific gravity reading. The reading will vary depending on how many ingredient you have added so don’t worry too much just record the reading.
2/ Add your yeast and let your beer ferment as normal.
3/ When fermentation is finished take a final specific gravity and record the reading.
4/ Now the calculation is simple. Opening specific gravity minus finished/final specific gravity divided by 7.36 is the alcohol content
So let us look at an example.
If I made a full flavoured beer like Guinness the opening specific gravity would be something like 1074 and the finished or final specific gravity would be something like 1025.
1074 – 1025 = 49 Now divided this number by 7.36
49 / 7.36 = 6.65 % alcohol.
It’s that simple.
Aug29
Olive Oil Addition to Yeast as an Alternative to Wort Aeration!
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The initial research was apparently carried out at KUL in Belgium, but it was a paper by Grady Hull of the New Belgium Brewing Co. that really brought the concept to the attention of the English-speaking homebrew realm.
The basic concept is that “oleic acid in the olive oil will provide the UFAs necessary for yeast growth and proper fermentation, eliminating the need for wort aeration.” Commercial breweries (and home brewers) are interested in minimising oxygen contact with beer at all stages of brewing in order to extend flavour stability.
The catch is that, at home brewing scale, the amounts of olive oil used in the paper are unfathomably small – 0.0000833mL per 5 US gallons.
Several other questions also remain. Oleic acid only provides fatty acids, so there is still a need for a sterol source (the paper mentions the possibility of “adding a combination of ergo sterol and oleic acid”) and the paper reports increased ester levels by this method, which may or may not be appropriate for the beer you’re brewing. There’s also a big question over exactly how much olive oil is optimal. Two other people came up with rates as high as 3mL or 15gm per 5 US gallons.
Of course, in their own inimitable fashion, home brewers around the world have jumped in head-first to test it out. And the funny thing is that several people are reporting positive results!
I guess it’s worth pointing out that most of the ‘results’ refer to measurable/observable fermentation characteristics, and not necessarily flavour. I find it interesting that in the home brewing world the use of olive oil is seen primarily as an easy alternative to oxygenation of wort or yeast, not as a means of minimising oxygen contact, which was the initial intention of the paper.
To be honest, I’m still quite sceptical. But I’m a grumbly old stick-in-the-mud anyway. Depending on how much stock you put in random people on the internet, it may still be reasonable to state that, a) you aren’t likely to ruin your beer with a small addition of olive oil; and b) it doesn’t appear to affect head retention.
I’m not aware of anyone saying that adding olive oil ruined their beer, so there doesn’t seem to be too much to lose by experimenting. Olive oil is one of my favourite foods anyway, so maybe I should give it a go. It might be a good addition to pizza beer!
Aug29
An in depth look at hydrometers and how they work!
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At some early stage, for most brewers, a hydrometer becomes part of their brewing equipment. To most it’s a matter of “drop it in and read” but having encountered some unlucky readings, I decided to delve further in the mysteries of the hydrometer.
In theory a hydrometer is basically an instrument for measuring the density of liquids relative to the density of water, measured on a scale called specific gravity, at a given temperature.
In a practical aspect, when substances such as sugar, malt etc are dissolved into our wort, the increase in specific gravity (S.G.) which means there is actually an increase in weight. When our hard working yeast converts these sugars into carbon dioxide and alcohol our density decreases and we encounter a weight reduction or decreasing S.G.
Im unsure who actually devised the system, but it was given that pure water had an S.G. of 1.0000, (remember specific gravity being the ratio of a fluids density in relation to the density of an identical volume of water) Therefore our wort with and S.G. of greater then 1.000 is proportionally heavier than the same volume of water. Put into practice, 20litre wort with an initial S.G. of 1.050. will weigh 1.050 times heavier than the same volume of water.
Given that 1 litre of water =1kg
20 litres x 1.050 (S.G.) = 21 Kilograms
It is worth noting that before hydrometer existed, brewers of old used this method of weighting and comparing the wort against the weight of the same volume of water. Thank god for hydrometer!!!!
Most of this is seemingly quite straight forward, but there is one aspect that we do have to monitor whilst taking readings. Hydrometers are calibrated at a given temperature. The majority that we use in brewing are 20c. (the calibration temp can be found in the paper insert in the upper thin tube on your hydrometer) If we measure our S.G.at a higher or lower temperature, as we sometimes do, an inaccurate reading will result.
This is because the absolute density of a fluid changes with the temperature, but the specific gravity doesn’t. Utilising the chart below, we can make adjustments and correct our readings.
Correction table for 20C hydrometers
Temperature (C) | Correction |
4-10 | -2 |
11-17 | -1 |
18-22 | 0 |
23-26 | +1 |
27-29 | +2 |
30-32 | +3 |
33-35 | +4 |
36-38 | +5 |
39-41 | +6 |
Hopefully now, when you drop your hydrometer into your test, you’ll be somewhat more informed and have a batter understanding of what is actually happening. Listed below are some other helpful hints to ensure correct readings.
Handle with care – I’m yet to hear of one that has bounced.
Check the calibration of your hydrometer – Floating in water it should read 1.000.
When testing and sample, spin it in the test flask to dislodge and clinging oxygen bubbles, and ensure the hydrometer isn’t clinging to the flask sidewalls.
Take readings at eye level to prevent distortion, and never return samples to your fermenter, as the risk of infection to your beer will be extremely high!
After taking S.G. reading, remove the hydrometer and do a taste test, it should taste like hot flat beer, if it taste unpleasant or fruity you may have an infection!
Aug29
Some Interesting Methods for Using Hops!
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Using Hops
Hops were originally used in beer as a preservative. These days, the bitterness they impart to balance the sweetness of the malt is an integral part of a beers flavour. In addition to the bitterness which comes from the alpha acids there is also a huge array of flavours and aromas available to the home brewer. Whilst this sheet will give instructions to hop your own beer from scratch, it should be said that most beer concentrates on the market will do the bittering part of things pretty well, and the best brands also use hop oils to add additional flavour. Even so the judicious use of small amounts of ‘finishing hops’ will make these beers their delicious best.
METHODS OF HOPPING:
Dry Hopping:
This is the most simple and arguably the best method for adding aroma to your beer, it will also add a pleasant fresh hop flavour. Suitable for cones or pellets.
Dry hopping is the practice of adding fresh hops, cones or pellets directly to your fermenter. The hops are best put into a muslin or nylon bag, they are then added to the brew at some stage during fermentation. My suggestion is to add them before adding your cold water i.e. mix all the ingredients as usual in hot water, when dissolved add the hop bag and give it a stir to ensure the hops are wet, then top up with cold water and pitch the yeast.
The Stubbie or Tea Method:
This method will provide an excellent balance of flavour and aroma. It is most suitable for hop pellets.
As the name implies this method is just like making a cup or pot of tea. It is simply a matter of steeping the hop pellets in boiling water for a few minutes, then tip them straight into the brew either strained or unstrained at the hot water mixing stage
My preferred method is to bring about 500ml of water to the boil in a saucepan, place the hops into a muslin bag and drop them into the boiling water, put the saucepan lid on and remove from the heat. The rest of the ingredients are then mixed with hot water in the fermenter, when blended the contents of the saucepan, including the hop bag are added and stirred into the then cold water.
The quick boil method:
This method can be employed when your recipe includes some additional malt, it has an advantage in the flavour department as the hops essential oils are ‘keyed’ into the malt. It is suitable for cones or pellets.
In a large saucepan blend the additional malt with enough warm water to make a fairly thin mix eg. 500g of malt powder to two litres of water, bring the mix to a gentle boil. In the mean time get your finishing hops, according to your recipe ( I would usually use 12g up to about 20g) split the hops into two equal piles, when the malt mixture is boiling steadily add one of the piles of hops and continue to boil for 10-15 minutes, then add the second pile, stir, cover and remove from the heat. Let the mix rest for 5-10 minutes then strain into your fermenter as part of the hot water in your original mix.
Aug29
Beer Faults – A Guide to The Tastes and Smells of Bad Beer!
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At some point in our brewing careers we are all going to make a bad batch. It’s a fact of life and is something we can’t change. For most of us this means committing the most cardinal of all sins….throwing your beer out.
But for some of us this just isn’t good enough. I for one like to know what went wrong and at what point and if I can save it, I want to know how. So here my friends is a guide to the disturbing world of the tastes & smells of bad beer.
Fruity or Vegetable Smells
This is caused by under aerating wort prior to pitching yeast. It can be caused by a long lag phase. In other words the yeast has taken too long to start fermenting. The cause could be not enough yeast pitched or the yeast is stale or infected. There is no cure for this.
Banana Odour
This is caused by the same things as above. That is the yeast is not aerated enough for good fermentation to start. Buy the time you get to taste it it’s to late, no cure.
Vinegar Taste & Smell
This is caused by acetic acid bacteria. Can be airborne by fruit fly or dust particles. If you the wort was aerated well, the yeast is off to a good start, the fermenter is well sealed and an airlock fitted, vinegar bacteria should be kept out. If infected, tip it out. No cure.
Lactic Acid Bite
Another bacteria that infects beer. The symptom is a sharp acidic bite to the tongue. Could be caused be poor cleaning of fermenter from last brew. Again, no cure.
Diacetyl Flavour
Often described as butter or butterscotch flavour. Minor lactic acid infection could be a cause. Often from not pitching enough active yeast, Aeration during fermentation, or Transferring to secondary fermenter too soon (absorbed air). Often a buttery flavour can be a characteristic of the yeast being used. Pitching and fermenting at too high a temperature is a cause. Stick to the yeast manufacturers recommended temperatures. If it is the yeast, change your yeast style. If using a lager yeast, cold lager for two weeks at 0-5C, this will reduce some of the diacetyl and the flavour. Curable.
Esters or Fruity Aroma
Esters or fruity, apple like aromas are caused by fermenting at too high a temperature and poor aeration of Wort. Summer temps of 30C + are a frequent cause. Ferment your ales at 17-25C and you wont get fruity flavours or aromas. In Queensland areas, we suggest using a ‘Fridge Temperature Controller’ or placing a large towel over the top of the fermenter with the ends soaking in a tray of water on each side, maintaining a temperature of about 25C with evaporation of the towel, even though the air temperature is in the 30’s. If you taste a sample of the brew before bottling, and it seems to estery or fruity, and you have a fridge available, store the fermenter of beer in the fridge for a couple for weeks at 5C-10C. This helps. It is basically the same as lagering. Even ale yeast will absorb some of the ester & diactetyl flavours. Certain yeasts will provide fruity flavours or apple like flavours. Curable.
Sulphur or Rotten Egg Gas Smell
Sometimes a by product of certain yeasts. Mostly driven off during fermentation. Sometimes a little in bottle. This usually goes in about 30 seconds. The smells that stay are the problem. Can be caused by leaving beer on yeast on itself causing a rotten egg or swamp gas smell. Sometimes it can even produce a burnt rubber smell. If not autolisis, it could be an infection. In either case, good sanitation and healthy yeast are good insurance.
If you are re-using yeast from a previous batch, test it for taste, aroma and appearance. If it tastes clean and beers, smells beery (not sour or acidic) and the colour is pale, light amber to almost white and too dusty in appearance, it is good to use. If it is not good enough to taste, it is not good enough to use. Curable.
Medicinal or Phenolic Flavour (Clove Flavour)
Could be caused by yeast austolsis, bacteria or wild yeast. May also be cause by too much chlorine in water supply. An easy was to get rid of chlorine is to leave a fermenter full of cold water for 24hrs with the lid off. The chlorine will evaporate. Remember though that in wheat beer, the clove flavour and smell is desirable. Curable.
Skunky Odour
We don’t have skunks so we guess an old cat will do for comparison. This smell is from the hops deteriorating in the bottle or the bottles have been exposed to sunlight (ultraviolet) Even fluoro tubes will cause light strike. Store your beer in the dark as long as possible to give a longer shelf life. As little as a week in the light will cause light strike in brown bottles, with green or colourless bottles it will be even less.
There are many other tastes, smells or aromas in beer, several things you should ensure when you are brewing are:
- Good hygiene or sanitation will prevent most problems.
- Pitching enough yeast for your particular beer recipe will also solve a lot of problems.
- Always remember the importance of fermentation temperature!
After years in the Home brew game it finally happened, my first batch of bottle bombs……it wasn’t that I bottled to early either, I waited 2 weeks in this case, almost to long in most peoples opinion. It was the sugar, I was out of carbonation drops and with out a sugar measure, and was stuck using a teaspoon and a bag of sugar, a messy process in anyones books.
I was apprehensive at first, assured myself not to worry but sure enough, 3 days later I returned home to find my lovely partner screeching her head off. She wanted explanations….assurances…… she wanted promises, written and signed that it would never happen again. Imagine the fright she would have receive when 6 of my precious brewski’s exploded whilst she was quietly watching TV ( a new idea for April fools just entered my head).
This little experience did however send me on a search for different methods of carbonation. Carbonation drops are good for the most part but I always wondered how do the brewery’s do it, and with no sediment in there bottles, it is a question that has played over in my head many times…… And along came bulk carbonation
A little known method that seems to have slipped through the fingers of the majority of home brewers out there and tends to come as a bit of a shock to many.
Most of us will have started our beer brewing days with bottling, and as such I think EVERYBODY will be familiar with the tedious process of filling the bottle, putting the sugar in, capping the bottle….repeat. Little did many people know that you can eliminate the middle step in the process, thats right, sugar less carbonation….well not quite.
Actually you still use sugar (or dextrose in this case), just in a very different way. Instead of placing the required amount in each individual bottle, which we all know posses a degree of risk, you dissolve the total amount of sugar needed first and add to the whole brew.
Heres a short example that would be used for medium carbonation (see table). So for an average 23 litre brew we use 90-140gm of dextrose. Lets call it 110 grams and call it even.
In a small saucepan and using a small amount of water (about 200ml is usually acceptable) mix in the dextrose and bring to the boil, let it boil for about 2 minutes whilst stirring. Take of the heat and add to your wort just before the bottling stage, try to pour it in so it spreads all throughout the wort and ‘lightly’ stir. I strain on the word lightly to, as we want to be sure NOT to kick up any of the sediment on the bottom, or aerate our beer!
After this just continue on to bottle like normal.
Carbonation Level | Total amount of Dextrose to add (grams) | ||
19 L | 23 L | 40L | |
High | 135-190 | 160-230 | 280-400 |
Medium | 75-115 | 90-140 | 160-240 |
Low | 0-55 | 0-70 | 0-120 |
his method has two major advantages over the traditional method. Firstly it ensures a constant carbonation over the entirety of your brew and it allows you to appropriately adjust the carbonation levels according to the type of brew you are doing (something of a myth to those accustomed to using carbonation drops). Secondly it eliminates yet another contributer to the sediment that graces so many of our home brew bottles, albeit only a little but I’m sure most of you will agree, every little bit counts….especially when it comes to beer!!