I am about to try brewing my first batch of homebrew. My question is should I be filtering the beer before bottling? I have made wine and Mead before and have not filtered it. I always get a little sediment that collects in the bottom of the bottle. I would REALLY like to be able to bottle the beer without worrying about sediment forming. Any suggestions?
Name: Randy
State: PA
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Hi Randy,
Thanks for your question!
Most homebrewers do not filter their homebrew at all for three main reasons:

1. Because there are a number of ways to get clear beer without a filter,
2. Bottle conditioning requires that there be beer yeast in the beer, and
3. Filtration requires additional equipment.

To expand on the second point, most beginning homebrewers bottle their beer. They add a small amount of sugar beforehand so yeast can consume it and naturally carbonate the beer in the bottle. Filtering the beer before bottling would make it impossible to do so.
But just because there’s beer yeast in the beer doesn’t mean we have to have a cloudy beer or a bunch of gunk at the bottom of the beer bottle. Here are a few of the things that can be done to minimize sediment in beer:

• Use kettle fining agents – One of the things that can be done to reduce sediment and improve clarity in beer is to use Irish moss. It’s typically added during the last 10-15 minutes of the boil to help proteins clump together and settle into a pile. This makes it easier to leave all that stuff behind when racking into the fermenter.

• Do a secondary fermentation – As beer ferments, yeast will naturally settle to the bottom of the fermenter. By moving the beer into a secondary fermenter, the brewer can take the beer off the yeast cake and leave behind a lot of that yeast sediment. The longer the secondary fermentation, the more yeast will settle out of suspension.

• Use finings in the fermenter – Adding gelatin, isinglass, or another fining agent to the secondary fermenter can accelerate the settling process. The gelatin and isinglass act by forming charged particles which attach themselves to yeast and protein in the beer.

Doing all of the above will ensure minimal sediment in the bottle. It is also important to note that it will usually cause the beer to take longer to bottle condition or carbonate. Instead of 1 week, it might take 2 or 3 to fully bottle condition. Regardless, I would recommend trying these methods before going the filtration route. Here are some more tips for making a clearer beer.
If after brewing a couple batches and deciding that you do want to filter your homebrew, you will need two things: a filter system and a kegging/carbonation system. At the completion of fermentation, you will rack the beer then filter it into a beer keg. You will then force carbonate the keg by storing it under CO2 pressure. Again, I recommend getting the brewing process down before filtering your beer.
Finally, it should also be noted that in some styles of beer, especially the hefeweizen and cask ales, the beer should not be filtered at all to conform to style.
That’s basically it. Filtering a beer before bottling is a no-no. Filtering a beer before kegging is fine but not completely necessary. If you are bottling beer and concerned about have a cloudy beer, try beer finings, first.
If you have any further questions, please do not hesitate to leave a comment below!
Til next time…cheers!
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David Ackley is a beer writer, brewer, and self-described “craft beer crusader.” He is a graduate of the Oskar Blues Brew School in Brevard, NC, and founder of the Local Beer Blog.

Do you really need to own a hydrometer? If you want to know the alcohol content of your beer, wine, mead, or cider – then yes! Or, if you want to know how your fermentation is coming along – then yes! Here’s instructions on how to use a hydrometer for brewing beer and how to determine the alcohol of your beer.

What is a hydrometer and how does it work?
A hydrometer is a simple device that helps home brewers and winemakers determine the alcohol content of their beer and wine. It’s a glass tube with a weight on the bottom and it floats in a sample of wort, must, beer, or wine. Based on how high or low the hydrometer floats, we can determine the amount of sugar suspended in the liquid. By taking one reading before fermentation and one reading after, we can easily measure how much sugar was consumed by the yeast and converted into alcohol.

How to take a proper hydrometer reading
To take a hydrometer reading, collect a sample of wort or beer into a graduated cylinder or hydrometer testing jar. Some homebrewers use the tube that the hydrometer comes in, but they’re really not made for this purpose, and that’s not a recommended way to use a hydrometer.
Carefully suspend the hydrometer in the sample and give it a spin to shake off any bubbles. When it slows, read the measurement (in the form of 1.0xx). Remember, if you want to return the wort or beer to the fermenter, the testing cylinder and the hydrometer should both be sanitized.
There are two keys to taking an accurate hydrometer reading:

1. You must take the reading at the level of the top of the liquid sample. Liquids will “climb” up the side of the hydrometer due to the surface tension of the liquid, so measure from the level of the liquid, not where the liquid sticks to the hydrometer (see diagram).

2. You must either take the reading at the appropriate temperature, or correct for the difference in temperature.

To expand on the second point, every hydrometer is calibrated for a certain temperature, usually 60 or 68 degrees Fahrenheit. I suggest chilling your wort or beer sample by running it under cold water or sticking it in the freezer – just don’t forget about it! Once you’re relatively close to the calibration temperature, just plug the values into a calculator such as this one to adjust the reading.

How to use a hydrometer to calculate alcohol content
To calculate alcohol content, take one hydrometer reading before fermentation (prior to pitching yeast) and one reading after fermentation. Multiply the difference between the two readings by 131.25.
Example:
Starting gravity (SG) = 1.060
Final gravity (FG) = 1.010
1.060 – 1.010 = 0.050
0.050 * 131.25 = 6.56% ABV (alcohol by volume)
Alternatively, you can do the same calculation with gravity points.
For example: 1.060 = 60 gravity points; 1.010 = 10 gravity points
60 – 10 = 50
50 * .13125 = 6.56% ABV
While using a hydrometer to measure alcohol makes it important enough to have, by itself, the hydrometer is also valuable for tracking fermentations and for verifying that a fermentation has completed once that activity has topped. There such a thing as stuck fermentations that need to be looked out for.
So, that’s all there is to it! That’s how to use a hydrometer. The explanation gets a little technical, but after a couple tries you’ll have a handle on reading hydrometers in no time!
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David Ackley is a beer writer, brewer, and self-described “craft beer crusader.” He holds a General Certificate in Brewing from the Institute of Brewing and Distilling and is founder of the Local Beer Blog.

When it comes to carbonating homebrew, not all things are the same… regardless if you bottling in bottles or in kegs. Belgian ales and hefeweizens are notorious for being bubbly and effervescent; cask conditioned English ales are sometimes called “flat” by those who aren’t familiar with their low carbonation levels.
While beginning homebrewers will get by with the standard one-size-fits-all method of using ¾ cup of priming sugar for every batch of beer, accuracy demands some adjustments when carbonating their homebrew. Besides, you don’t want to over-carbonate and end up with bottle bombs!
Homebrewers who prime their beer with corn sugar before putting it in beer bottles obtain their carbonation by giving yeast additional food to convert into carbon dioxide. Homebrewers with draft systems carbonate by forcing carbon dioxide pressure against their beer, which eventually goes into suspension. In both cases, temperature must be taken into account. This is because liquids at low temperatures retain carbon dioxide more than warmer liquids do.
Carbonation is measured in “volumes CO₂.” English ales may be as low as 1.5; German Wheat Beers can reach as high as 4.5. For most of the beers I brew, I aim for 2.2-2.5 vols CO₂. Beers in excess of 3.0 vols CO₂ may show some issues when opening bottles and pouring.
To accurately carbonate your homebrew, first determine the base style and the appropriate carbonation level.

                 Style                   Volumes of CO2

American ales            2.2–3.0
British ales                 1.5–2.2
German weizens         2.8–5.1
Belgian ales                2.0–4.5
European lagers          2.4–2.6
American lagers          2.5–2.8

Next, your method for will vary depending on whether you are carbonating homebrew in bottles or carbonating homebrew in kegs.

If Carbonating Homebrew In Bottles…
If bottling, you will need to determine the amount of priming sugar to mix with your batch of beer. After determining your target carbonation level, figure out the amount of residual carbon dioxide in the beer and subtract it from the target carbonation level. Use this number to determine the amount of priming sugar or DME needed to reach the target carbonation.
The Brewer’s Friend Priming Calculator helps immensely with these calculations. A digital scale will help you weight out the precise amount of priming sugar or DME you need.

If Carbonating Homebrew in Kegs…
If kegging and force carbonating, the amount of carbonation you get depends on the level of CO₂ pressure on the beer and the beer’s temperature. A chart like this one will help you figure out the amount of pressure you need. (You may want to print out a copy for your home brewery.) Brewers Friend also has a Keg Carbonation Calculator.

Once you’ve figured out how much pressure you need, apply the pressure for about three days, and then turn it down to about 6-8 psi to serve.
Do you bottle or keg? When carbonating homebrew, how do you make sure your CO₂ is spot on?
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David Ackley is a beer writer, brewer, and self-described “craft beer crusader.” He holds a General Certificate in Brewing from the Institute of Brewing and Distilling and is founder and editor of the Local Beer Blog.

When following a beer recipe, we often find ourselves with hops that don’t quite match up with what the recipe calls for. Either the alpha acid percentage is off, or we can’t get our hands on the right variety of hops – requiring us to make a hop substitution of sorts. So what do we do?
Well, the easiest thing would be to just throw in whatever hops you’ve got and hope for the best, but there are a couple easy ways to make sure that we at least get close to the original beer recipe when substituting.

Substituting Hop Additions for Alpha Acid Content
Since hops are a plant dependent on a number of factors (weather, soil fertility, amount of sunlight, etc.) alpha acid content can change from season to season and from crop to crop. If your beer recipe calls for two ounces of Cascade hops with an alpha acid percentage of 6%, but your Cascades are 8%, how do you adjust the hop addition to make sure you get the same number of IBUs?
An easy solution is to calculate for homebrewing bitterness units (HBUs) or alpha acid units (AAUs):
2 (ounces of hops) * 6 (alpha acid percentage) = 12 HBUs/AAUs
Then just solve for the amount of the hops on hand needed to get the same number of HBUs/AAUs:
X (ounces of hops) * 8 (alpha acid percentage) = 12 HBUs/AAUs
X = 1.5
Substitute 1.5 ounces of your Cascade hops for the 2 ounces called for in the beer recipe, adding the hops to the kettle at the same time as originally called for. (Note: HBUs and AAUs are not the same as IBUs, but they will help to make sure the IBUs of your beer are close to what was intended in the recipe.)
Calculating a hop substitution based on HBU’s is easy enough, right? But what if you don’t have the variety of hops that your homebrew recipe calls for?

Making Hop Substitutions for Variety
If you can’t get your hands on the variety of hops that are called for in the recipe, it just takes a little research to figure out a good possible hop substitution. The HopUnion listing of hop varieties offers suggested hop variety substitutions for most, if not all of the hops on the market.
You can also consult a hop acid chart to find hops with similar qualities. The top half of the chart is for flavor and aroma oils, whereas the bottom shows the typical alpha acid content, which affects bitterness. As you can see, Columbus, Chinook, and Northern Brewer are similar in the flavor and aroma department, but they differ when it comes to alpha acid content. To maintain IBUs, you can use the HBU/AAU calculation method above.

Conclusion
Homebrewing isn’t a perfect science – far from it. But with some research, good technique such as hop substitutions, and some tricks up your sleeve, you can brew consistently good beer batch after batch.
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David Ackley is a beer writer, brewer, and self-described “craft beer crusader.” He holds a General Certificate in Brewing from the Institute of Brewing and Distilling and is founder and editor of the Local Beer Blog.

For many homebrewers small batch brewing is a reasonable option for them. It doesn’t always make sense to brew a five or ten gallon batch of beer every time. Many of us are confined to small apartment kitchens, taking over what space we have to craft our home made beers. Others among us are like mad scientists, always brewing with some strange ingredient found in an international market or picked from the garden. You may not want to end up with five gallons of an experiment gone wrong.
Enter: small batch brewing. Commercial craft breweries are often renowned for their small batch beers, brewed seasonally and released in limited quantities. Whether you’re brewing small batch beers at home for logistic, experimental, or economical reasons, there are some benefits – and drawbacks – that should be considered:

The Pros of Small Batch Brewing

• Easy to scale – Scaling homebrew recipes is easy. To turn a five-gallon recipe into a 2.5-gallon batch, just divide all of the ingredients by half. All the brewing procedures should be more or less the same. The only ingredient that doesn’t need to be cut is the beer yeast. Any batch less than 5 gallons, still use 5 gallons worth of yeast. (Consider purchasing a small digital scale for dividing hops and grains.)

• Practice techniques and procedures – First-time brewers and those practicing a new technique may have an easier time with a smaller batch. For example, a mini-mash, or partial-mash, is a great way for extract brewers to learn about mash procedures. Maybe use small batch brewing to step up to a 2.5-gallon all-grain batch before doing five or ten gallons.

• Experiment with less risk – Brewing with an unusual herb, spice, or fruit? Before you know how the beer will turn out, it may make sense to brew a 1-2 gallon batch for starters. Or, if you want to experiment with different flavorings in the fermenter, you could brew one batch of the base beer, then divide it among several smaller fermenters, with varying quantities of the experimental ingredient in each one. (One-gallon glass jugs are perfect for this.)

• Smaller investment – If funds are tight, small batch brewing can let you brew for less money. Not only is the upfront cost for homebrewing ingredients lower, but you can still make some beer and put off the brew kettle upgrade for a later date.

The Cons of Small Batch Brewing
There’s really just one main drawback to small batch brewing: For roughly the same time commitment, you end up with less beer. Things like bottling and heating up water may be a bit faster, but the overall process will take about the same amount of time as brewing a larger batch. But we all love to brew, so who really minds brewing more often?
In my home brewery (i.e., kitchen), I like to alternate between small and big batches. When experimenting, I’ll brew a two or three gallon batch, but I’ll still brew enough five-gallon batches to keep my favorite beers on hand.
Do you know of any other pros and cons to small batch brewing? Have you ever tried small batch brewing? Do you have an idea that might need a test batch of beer first?
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David Ackley is a beer writer, brewer, and self-described “craft beer crusader.” He is a graduate of the Oskar Blues Brew School in Brevard, NC and founder of the Local Beer Blog.

Bottling homebrew beer isn’t always an easy process. If you’ve already bottled a few batches, then you already know what I’m talking about. Filling some 50 bottles of beer can be time-consuming and frustrating for the average homebrewer. But it doesn’t have to be!
One of the great things about homebrewing is that it is a totally modifiable hobby. There’s no single “right” way to do it. All it takes is a little creativity to make things work for you.
Here’s some tips for bottling homebrew beer that will save time and effort on bottling day:

Challenge #1: Cleaning & Sanitizing
No one enjoys scrubbing 50 beer bottles by hand. Luckily, this is a part of the bottling process that can be largely automated.
Advice for cleaning and sanitizing beer bottles:

• Rinse first. After drinking a beer, rinse out the bottle with a few quick bursts from the kitchen faucet. This will make sure there isn’t any nasty gunk inside the bottle that has to be scrubbed out on beer bottling day. Stubborn deposits inside the bottle? The Bottle and Carboy Washer will blast them away. Consider draining your beer bottles on a Bottle Tree so you don’t have to worry about standing water inside the bottle.

• Sanitize in dishwasher. This is one of the beer bottling tips that will save you a lot of time. It isn’t a good way to clean beer bottles, but if you’ve already rinsed them, it makes sanitizing pretty easy. The dishwasher jets won’t likely reach into the bottom of every bottle, but the steam and the heat will kill most of the wild yeast and bacteria that may be lurking inside the bottles. Just plan ahead and place your clean bottles in the dishwasher and get the sanitizing cycle going an hour or so ahead of bottling time.

Challenge #2: Removing Labels
Probably the most annoying part of bottling homebrew beer is removing the labels, so much so that some homebrewers don’t even bother. But if you submit your beer bottles for competition or want to make sure you don’t look like a total amateur, the labels gotta go.
Tips for removing beer bottle labels:

• Buy some plain bottles. If you’re willing to spend the money, just get a case of beer bottles from your homebrew shop. For some, the time savings will be worth the expense.

• Choose your bottles wisely. If you’ve removing labels before, you may have noticed that certain breweries’ labels come off more easily than others. I’ve found that it’s usually the larger craft breweries whose labels come off the easiest. If you need to stock up on bottles for homebrewing, get a case from New Belgium or Sam Adams. Once you’ve made your way through the case (remember to rinse!), just soak the bottles in a solution of Basic A No-Rinse Cleanser and warm water – the labels will come right off.

Challenge #3: Tilting the Bottling Bucket
This is a beer bottling tips that will save you a couple of bottles every batch when bottling your homebrew beer. A lot of bottling buckets have the spout a full inch or so above the bottom of the bucket. This helps leave behind sediment that may be in the bucket, but there’s at least a few bottles worth of beer below the spout. This leaves us having to tilt the bucket to get the last several pints. An extra set of hands will make this easier, but it seems to me like an unnecessary waste of energy.
Solution?

• Build your own dip tube. I found this tip on Homebrew Talk. Take a rubber stopper that fits into the inside of your bottling spigot and construct a dip tube from a short piece of plastic, stainless steel, or copper. For my setup, a Drilled #2 Rubber Stopper did the trick, and now I don’t have to tip the bucket!

Do you have any tips for bottling homebrew beer you’d like to share? I’m sure that others would love to hear them. Comment below and let us know!
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David Ackley is a beer writer, brewer, and self-described “craft beer crusader.” He holds a General Certificate in Brewing from the Institute of Brewing and Distilling and is founder of the Local Beer Blog.

Using a yeast starter when making your beer is simple way to improve your fermentations. Here you will find a yeast starter recipe and instructions for using one to have a healthier, more-thorough homebrew fermentation.

What is a beer yeast starter?
A beer yeast starter is a volume of yeast that’s pitched into wort, usually prepared a day or more in advance of brew day. Homebrewers and commercial brewers alike use yeast starters to ensure that there are plenty of healthy yeasts cells to quickly, cleanly, and completely ferment a batch of beer. In other words, a yeast starter provides an opportunity for yeast cells to grow and multiply prior to being pitched into a batch of beer.
Preparing a yeast starter for your beer has several benefits:

• Improved attenuation, i.e., a more complete fermentation and lower final gravity
• Shorter lag time, i.e., fermentation starts more quickly
• Cleaner tasting beer
• More effectively ferment high gravity beers
• Proof the yeast, making sure that it is active and viable

Yeast starters are typically only made from liquid yeast cultures. Dry yeast packets, assuming they have been stored properly, should contain enough cells to ferment an average homebrew, but even making a yeast starter with dried yeast will result in some remarkable improved fermentation
Experienced homebrewers recommend a starter containing about 200 billion yeast cells to ferment the typical 5 gallon batch of homebrewed ale, and 400 billion yeast cells to ferment a lager. Since most liquid yeasts contain about 100 billion cells, we need to grow these cultures in order to achieve an optimal fermentation. (Explore this link for more advanced pitching rate calculations.)

Beer Yeast Starter Recipe

Yeast starters require very little equipment, most of which you probably already have on hand:

• a saucepan or pot
• 1 gallon glass jug or large glass flask
• light dried malt extract
• liquid yeast
• drilled stopper
• airlock
• sanitizer

Yeast Starter Instructions

Making a yeast starter for beer is an easy way to improve the quality of your homebrew. While lagers and high-gravity beers will require more advanced pitching calculations, these steps will guide you through the basic process of preparing a yeast starter for the typical 5 gallon batch of homebrewed ale:

1. At least 24 hours prior to brew day, fetch a large glass jug or flask and clean and sanitize thoroughly. Sanitation is extremely important, otherwise your yeast starter may become contaminated!

2. For an average homebrewed ale, boil 2 liters water to 200 grams (roughly 1.5 cups) light dry malt extract. This is will provide the environment for yeast to feed and multiply.

3. After a boil of 10-15 minutes, this starter is sterile. Cover with a sanitized lid or bung and chill to pitching temperature.

4. Pour the cooled wort into a sanitized container through a sanitized funnel.

5. Pitch yeast into the starter container. Make sure that both wort and yeast are at an appropriate pitching temperature (and within 10°-15°F of each other), so as not to shock the yeast.

6. Attach a drilled stopper and air-lock. The yeast starter should begin bubbling within 6-12 hours.

7. On brew day, pitch the starter directly into your batch of wort.

Making a yeast start for your beer is an easy way to improve on your brewing process. Follow the recipe and instructions above see if you can tell a difference.
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David Ackley is a beer writer, brewer, and self-described “craft beer crusader.” He holds a General Certificate in Brewing from the Institute of Brewing and Distilling and is founder of the Local Beer Blog.