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Rarely does a week go by where I don’t receive an email from a user who has had a computer failure, lost laptop or lost phone resulting in BeerSmith data loss. While the BeerSmith Web version and cloud based data is automatically backed up on the sever nightly, your local data is not. Local (My […]
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In a way, purchasing the Black Elks’ building was like coming home for Ken Carson. The building sits in a part of Albuquerque, N.M., he describes as “the ’hood.” Carson once lived here before moving to the more affluent Northeast Heights in the 1960s, where he attended high school with only three other Black students. […]

The post Soul Food and Cream Ale in Albuquerque appeared first on CraftBeer.com.

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This week I present a design case study for developing a Marzen beer recipe. Along the way I describe my thought processes as I work through creating and brewing a new recipe. Designing a Marzen Beer Before I start a new beer, I sit down and describe what I’m trying to accomplish. This beer was […]
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Our batch analysis/QC at Sapwood Cellars is pretty basic. Mostly it's me finding time each weekend to taste a recent release (ideally side-by-side a comparable example from another brewery). I write up tasting notes, include feedback I've gotten from other people, and recipe/process tweaks for next batch. 

Part of my routine is to scroll through Untappd to see if I can spot any common threads to the compliments or complaints... but I don't put a huge amount of stock in the average score (see this post). Blind rating by a skilled tasting panel is the gold standard... but having a large/diverse group of beer drinkers give you feedback has value as well! With four years of Untappd scores for our IPAs at my disposal, I thought it would be interesting to see which hops "the beer drinking public" preferred in Sapwood Cellars IPAs and DIPAs!


Cheater Hops IPAs

We started this series of IPAs when we opened to showcase our favorite hop varieties. We recently released #22 (Citra-Motueka). All of the batches were 6.5-7.5% ABV, with similar malt bills (American pale barley, chit, wheat, and oats), fermented with an English-leaning yeast, and dry-hopped post-crash at 3-4 lbs/bbl. The table below is the average Untappd score of all batches dry hopped with the variety listed. 


HopAverage
Motueka4.221
Nelson4.190
Azacca4.188
Citra4.177
Riwaka4.169
Amarillo4.163
Simcoe4.162
Galaxy4.155
Mosaic4.144
Columbus4.129
Hydra4.122
Vic Secret4.122
Strata4.107


Seven of these varieties were only in one beer (Amarillo, Azacca, Columbus, Strata, Vic Secret, Hydra, Riwaka). So it is difficult to tease out if their score is a result of the hop or the context. See the table in the following section for a larger sample set. 

I wouldn't have guessed that Motueka would be the most popular compared to the likes of Nelson, Galaxy, Citra, Mosaic, and Simcoe! We've had hit-or-miss results with Motueka overall, with most of the hits coming from Freestyle Hops. We've gotten a few lots from other growers that have been too herbal/spicy without the bright lemon-lime note I enjoy. 

I really like Hydra as a "less risky" alternative to Galaxy. It has similar passionfruit-gum aromatics without the dried, peanut-shell notes I too often smell from Australian hops. The lone batch of Cheater Hops with Hydra (#18) also included Vic Secret and Galaxy. Leaning into that tropical flavor didn't provide enough complexity to me, and it didn't score particularly well. 




All IPAs and DIPAs

The table below include all 65 "big batch" IPAs and DIPAs we've released that don't contain adjuncts (although I did include Phantasm beers). These are diverse in terms of recipe construction, alcohol strength, and dry hopping rate. As a result, the scores are a bit more prone to bias compared to the Cheater Hops data set. 


HopAverage
Galaxy4.220
Hallertau Blanc4.220
Cashmere4.217
Nelson4.203
Motueka4.186
Mosaic4.186
Citra4.185
Simcoe4.178
Azacca4.157
Riwaka4.150
Amarillo4.141
Vic Secret4.131
Taiheke4.130
Columbus4.129
Strata4.113
Hydra4.096
Talus4.090
Sabro4.075
Lotus4.040
Idaho Gem4.010
Lemondrop4.010
Sultana3.990


Again some of the varieties near the top of the list are expected (Galaxy and Nelson), but who would guess Hallertau Blanc or Cashmere? The issue with this data set is that we don't brew beers randomly... every batch with Hallertau Blanc also included Nelson and/or Mosaic as part of our "Dragon" series of rye IPAs and DIPAs. Cashmere is mostly used in a specific base (Exaggerated Truth/Understated Lies) that is sweeter and extra-fruity thanks to a small percentage of hefeweizen yeast. We should probably try other hops in that base, and Cashmere in other bases to gauge the response!




Pairing Hops
 

For some batches you'd expect to see a high rating due to pairing two great hops together (e.g., Nelson/Galaxy or Mosaic/Citra). Both varieties score well across all our beers, so no surprise combing them results in a well-rated IPA. More interesting is sorting by the average standard deviation for the hops included. This shows which combinations rated higher than expected given the average scores for those hops across all beers. Snip Snap (Citra/Galaxy), Cheater Hops #22 (Citra/Motueka), Shard Blade (Mosaic/Galaxy), Cheater Hops #13 (Mosaic/Simcoe), and The Dragon (Nelson Sauvin/Mosaic/Hallertau Blanc) were all in the top-10 "overachievers." These hop blends follow different approaches either "leaning into" a particular flavor (fruity, or winey) or balancing fruity with a danker variety. 

Rounding out the top-10 are two all-Simcoe (Cheater Hops #12 and Drenched in Green), two all-Mosaic (Fundle Bundle and TDH Trial #1), and an all-Nelson beer (3S4MP). Certainly a sign that these hops can shine alone compared to Citra and Motueka which are highly rated in blends, but haven't exceled in single-hop beers (despite our best efforts). Of course you need a great lot of hops for this to work; the bottom-10 also includes single-hop beers featuring: Simcoe (Cheater Hops #9), Nelson Sauvin (Cheater Hops #11), and Mosaic (Fumble Bumble)! 

Two beers with Galaxy and Nelson (Cheater X and X2) each had a standard deviation close to 0. They still rate well, but no better or worse than expected across all beers with Nelson or Galaxy. 
Surprisingly three of the bottom four included three varieties Cheater Hops #7 (Simcoe, Citra, Mosaic) Cheater Hops #6 (Motueka, Mosaic, Simcoe) False Peak (Idaho 7, Sultana, Citra). Blending hops can create a generic "hoppiness." These beers may have been missing a distinct "wow" aroma for people to grab onto. 


Take Aways 

The high/low scores for different batches brewed with the same single hop variety really drives home how unreliable this data likely is. Without multiple batches hopped with the same hop combination, it is impossible to say with certainty if a beer scored well because of aromatic synergy or a delicious lot of hops. Luckily several of the top-rated combinations are beers we have brewed multiple times. 


The data does suggest to me that using one or two varieties for the dry hop is the best bet for making the most appealing IPA unless you have something very specific in mind. Often when breweries use a large number of hop varieties in a beer it is to promote consistency (batch-to-batch and year-to-year). It would be interesting to expand the data set to include beers from other breweries. That would produce data that is less specific to our particular brewing approach, hop sourcing, and customers' palates.


Help Provide Data

If you are interested in trying our beers for yourself... We've been direct-shipping Sapwood beers within Maryland for awhile, but if you live elsewhere in the US and are interested in trying our beers, we sent our first pallet (Cheater Hops #22 and TDH Pillowfort) to Tavour. They direct-ship to about half the states in the country. Here's the link for the app to notify you when they are available. 





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When it comes to brewing delicious beer, there are few aspects more important than the yeast. A healthy fermentation allows the malt, hops, and adjuncts to shine. Pitching the right amount of healthy cells helps ensure that the finished beer has the intended alcohol, expected residual sweetness, and appropriate yeast character.  

Over the last four years at Sapwood Cellars we've slowly improved our yeast handling. We've noticed improved fermentation consistency, and better tasting beers. Most of our process is excessive for a homebrewer, but it might give you some ideas!

Harvesting Yeast

We harvest yeast from moderate gravity beers when possible as these cells are less stressed and healthier as a result. Our general rhythm is to brew a pale ale with a fresh pitch, and harvest from that tank for an IPA and DIPA the following week. Once the pale ale fermentation is complete (repeated gravity readings, and no diacetyl or acetaldehyde sensory) we can and soft-crash to 56-58F (13-14C). Cold and dissolved CO2 encourage the yeast to settle out. Specific temperature and time are strain and tank dependent, but that works for most of the English-leaning strains we use (Boddington's, Conan, Whitbread, and the Thiolized-variants).

Once the beer has been cold for 24 hours, we attach a 1/2 bbl brink to the bottom of the tank and pasteurize through the line and brink with 180F (82C) water from our on-demand. 25 minutes hot ensures there aren't any stray microbes that will be passed onto the subsequent batches. After pushing out the water with CO2 pressure we spray the brink with cold water then pressurize it and the tank to ~10 PSI. 

We then dump about a gallon (4L) from the T until the yeast looks good (creamy, off-white) and then begin collecting into the brink. You don't need to dump a large volume of yeast. By keeping steady pressure on the tank and slowly releasing pressure on the brink through the valve at the top we ensure that the yeast won't come out of the cone too quickly (which could punch through pulling in more beer than yeast) and won't foam up in the brink. It takes 10-15 minutes to fill the brink. Usually we are able to collect 110-130 lbs (50-60 kg) before yeast starts coming out the top of the brink. 

We collect yeast before dry hopping to avoid having hops mixed in with the yeast. We also prefer the "less rough" flavor we achieve by dry hopping cold. If you dry hop early-mid fermentation and want to harvest, drop as much of the hops out as you can before crashing and harvesting.

Yeast Storage

Whenever possible we pitch within 72 hours of harvest. Larger yeast cultures generate more heat and thus tend to lose viability more rapidly. Store the yeast as cold as possible, which for us is ~36F (2C) in our walk-in. Ideally that would be closer to 32F (0C) to further slow its metabolism. Shake twice a day to dissipate hot-spots and vent down the pressure to knock-out CO2. If storing the yeast for more than a few days, attach a blow-off line to prevent pressure from building. 

There are studies about various additives for maintaining high yeast viability. We've added phosphate buffer to prevent a drastic pH drop. It's difficult to tell from a single data point, but viability dropped from 95% to 89% after a week of storage. We've seen closer to 10% reductions the handful of times we've stored yeast that long previously.  

We generally won't harvest and repitch beyond three generations (although recently we went to five). That's because with our limited number of tanks, variety of yeast strains, and canning schedule we'd eventually have to hold onto yeast for a couple of weeks before pitching or harvest from a strong beer. 

Determining Cell Count and Viability

There are plenty of successful brewers who pitch a standard weight by barrel/gravity, but knowing how many live cells you actually have is a great way to improve consistency. It's especially valuable if you use a variety of strains or want to bring in a new strain. Our harvests of the same strain can vary by as much as three times in terms of live cells per g of slurry (~.5-1.5 billion cells). The cost of all of the equipment required is ~$500, less than a single commercial 10 bbl yeast pitch from some labs. 

Start by shaking the brink to homogenize the culture. Then run a cup of yeast out, dump it (to avoid counting the cells packed around the port) and then pull a sample. The next step is to dilute the culture to a "workable" concentration - 1:100 for us. Too many cells packed together makes for a culture that is impossible/laborious to count, while too few raises the chances luck will throw-off the count. For a long time I diluted by volume, performing two sequential 10X dilutions with a micropipette. This had two drawbacks. First getting an accurate volume of yeast slurry is tricky because it is foamy and has small bits of trub that can plug-up the pipette. Second, we pitch by weight, so there was always some estimation when it came to converting the volume to a weight or the extra step of determining the physical density of the slurry by mixing with water in a graduated cylinder on a scale. What we do now is dilute by weight, which gives us cells per gram rather than cells per milliliter.

Our scale is accurate to .2 g, so weighing 1 g of yeast into 99 g of water has a ~20% margin of error. As a result I do 490 g of water with 5 g of the yeast slurry. This reduces the maximum margin of error to ~4%. After pouring the diluted culture back and forth to mix, I take 9.9 mL of the diluted culture with the micropipette and add .1 mL of a stock dye solution of Erythrosin B and phosphate buffer (1 g in 50mL of buffer). This results in a total dilution of 100X. You could go even further, a 10X dilution by weight (50 g yeast with 450 g of water) followed by a 10X dilution by volume (1 mL of the diluted culture with 8.9 mL water and .1 g of dye). Live cells are able to expel the Erythrosin B so they won't be stained, meaning any red yeast cells are dead. You can use a variety of other stains, but Erythrosin B is a food coloring and much safer to handle than methylene blue or trypan blue. Here's a post from Escarpmant Labs on using it inspired by my Tweet (which was in turn inspired by this).

Luckily the Boddingtons-type strain we use for most of our batches isn't "excessively" flocculent. When we fermented a run with Whitbread we ran into issues with the cells being too clumpy to count. Luckily BrewKaiser has a whole post on additions you can add to help. Phosphoric acid worked OK, but a local brewer suggested disodium EDTA, which I plan to buy before we do another run with a similar strain. 


Next, place a couple drops on the diluted culture a hemocytometer, apply the slide cover, and stick it under a microscope (we have an Omax). Count the live and dead cells in five squares (each made up of 25 small squares) - four corners, and center. This provides a large enough sample size to avoid undue randomness. A small tally counter helps keep track. The standard rule is to count cells touching the left and top lines, but not the right or bottom. Count connected cells as two only if the daughter cell is more than half the size of the mother. Then I plug the totals into Inland Island's Yeast Cell Count Calculator. Usually our harvests are 80-90% viable off a fresh pitch, and they tend to go up from there on subsequent generations (90-95%). If your viability isn't great it could either be that the yeast isn't getting enough nutrients/oxygen, your initial pitching rate was too high or low, or that you are waiting too long to harvest.  

There are automated solutions for yeast counting, but with some practice the whole processes will take less than 10 minutes.  



Pitching Yeast

To pitch, we attach the brink to a T inline during knock-out. With the brink on a scale we use CO2 to slowly push in the desired weight of yeast (calculated based on the cell count, wort gravity, and volume). We pitch during knock-out so the yeast mixes with the aerated wort as it goes into the fermentor. White Labs advocates using a pump to pitch their fresh yeast inline to achieve better mixing with the wort. Best practice is to do another cell count off the tank once knock-out is complete to validate your process (we did it a few times, but now trust our approach).

When we started brewing more double batches to fill our 20 bbl tanks, we were pitching enough cells for 20 bbls along with the first 10 bbls of wort. Our thought process was that the yeast wouldn't do much in the 3-4 hours before the second half of the wort went in. However, we found our fermentations were less reliable, often dragging towards terminal gravity, and the yeast from those batches had much lower viability than expected. Both of these issues improved significantly once we switched to pitching only enough cells for the initial knock-out volume. This allows for more growth and thus a higher proportion of younger yeast cells. 

Hopefully this overview of our process is helpful for someone starting a new craft brewery, or looking to take their yeast management to the next level. As with anything in brewing, the more variables you can track and control the more consistency you'll have in your results. Yeast management isn't a "fun" topic, but it is one of the simplest things a brewery can do to increase consistency, improve flavor, and save money!





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This week I take a look at how to perfect a single beer recipe, and why this is important for brewers. When I first started brewing back in 1987, I wanted to brew everything. The Craft Beer revolution had not happened yet, so there were few examples of most styles, and we often learned about […]
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This week I take a close look at malts, the four major malt groups and how malts are best used in beer brewing. This is a summary article which incorporates links to more detailed articles on each malt group. The Four Major Malt Groups All of the barley malts used in brewing can be effectively […]
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This week I take a close look at the roast malt group, and explain when and why you would want to use these malts in your beer. The Roast Malt Group The roast malt group includes pale chocolate, chocolate malt, carafa I, II and III, black patent malt, red malt and stout roast. These are […]
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This week I describe base malts and their use in beer brewing. The Base Malt Group Base malts are the most widely used in beer brewing as they make up the vast majority of any malt bill. Many beer styles like IPA were traditionally made with only base malts, and you can brew a large […]
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This week I take a look at the kilned malt group, and explain when and why you would want to use kilned malts in your beer brewing recipes. The Kilned Malt Group As I explained in my earlier article on malting and malt groups, kilned malts are made using the same basic malting process as […]
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This week I take a look at the technical nature of beer brewing and how it differs from making other beverages like wine, cider or mead. Beer Brewing and Technology I often open my designing beer presentations with a description of the technical nature of brewing. Beer brewing is a much more technical hobby than […]
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Over the weekend I completed a long overdue revision of the BeerSmith forum. I moved to a new forum software platform, which adds a ton of new features. I also secured the main BeerSmith web site, blog, forum and recipes site so they all redirect to our secure server now. This resolved a series of […]
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