Initial thoughts using a Blichmann BrewEasy

Ooh, sexy beast of a beer: Jester King Le Petite Prince!

10 Gallon Electric BrewEasy (TM) Setup. Photo by Mark

My longtime assistant brewer has slowly transitioned into a full-time brewer on his own. Mark initially started with a Brew-in-a-Bag (BIAB) setup to brew Kombucha. Over time, the recipes changed to BeerBucha, all-grain beer recipe but Kombucha SCOBY for fermentation. Finally he just switched to beer and exclusively employs a mixed-culture blend from Jester King. After the completion of the Battle Shed Mark’s Rebel Brewing Alliance decided to get ahead of opposition and transition into an electric brewing setup, Blichmann BrewEasy.

Last week he invited me over during his initial brewing run to take a look at his new setup and become *his* assistant brewer. The first beer is Jester King’s Das Überkind Vieille Saison. The BrewEasy 10G equipment profile is available in BeerSmith2, merely selecting the Blichman 10 Gallon profile, which uses a 20 Gallon BoilKettle and a 15 Gallon Mash Tun. The BrewEasy is slightly different since it’s doing a recirculating mash process combined with BIAB-style where all of the water needed is provided up-front and split between the two pots. The BrewEasy recirculation loop consists of liquor from the mashtun using gravity to drain through the false bottom into the lower boil kettle using a custom steel tube that connects to the output valve on the 15 gallon mash pot. Inside the boil kettle resides the electric element which requires approximately 6 gallons of liquid to ensure the element is always covered. The output of the boil kettle is connected via hose to a pump with a stainless T adapter in which resides a temperature probe connected back to the Tower of Power for reading the current temperature of the liquor/wort. The output from the pump flows up to the side of the mashtun and into a Blichman Autosparge which uses a ballast (floating arm) to control the input flow back into the mashtun. The brewer controls the level of the floatarm and the opening of the mashtun to balance the flow of wort between the mashtun and boilkettle.

At the start, we split the water between the two kettles and started the element to heat the water to a target of about 161F for dough-in at about 152F mash temp. We set the float arm to keep 10.5 gallons of water in the mashtun and the remaining 8 gallons in the boil kettle. We noticed during this process that there was a delta in temperature reading between what was being measured at the T off of the pump and the actual water in the mashtun. We measured about about 4F degree loss between the pump and the water in the mashtun. My initial thought was that the temperature probe really ought to be right next to the input to the mashtun, right before the sparge arm. With the delta in mind, we raised the temp to reach our target and started the dough-in. The strike temperature was calculated by using the upper mash volume (10.5 gallons), the amount of grain and the grain temperature.

After doughing in, we noticed two things. First we had overshot our strike temperature, and second that the sparge arm was not open due to the additional volume now in the mashtun. After fixing the arm level, recirculation resumed and now our temperature rose again. This revealed the second “flaw” in the system. The temperature sensor that controls the element in the boilkettle/grant measures temperature as it passes in the loop. When the sparge arm closes the value, we’re no longer recirculating and the temperature in the loop falls meaning the element in the kettle is active to raise the temperature. Without recirculating, the controller never knows the temperature inside the kettle and we ended up raising the remaining water in the kettle far above our strike temperature. Additionally since we recirculated 18 gallons instead of 10.5 gallons, the additional thermal mass meant that we didn’t need to raise the strike temperature up to 161F, rather we should have only reached about 157F to ensure a target of 152.

Mark worked around this overshoot by leaving the mash isolated and reciculating the remaining liquid in the lower pot itself until it returned to the target temp of 152F. Several times during the mash itself, the same problem repeated itself, as we attempted to raise the volume of liquid in the mashtun to match the water/grain ratio, this ended up closing the recirculation valve and leaving the element on raising the temperature in the boil kettle higher than needed to retain a target mash temp.

Upon reflection, and examining how The Electric Brewery has designed their HERMS loop, a few things come to mind for the BrewEasy. First, the autosparge is not needed at all. In the case where all of the water needed for the batch is available at the start, the closing of the loop via autosparge is only going to cause problems, as we described above. Removing the autosparge would have fixed the major issue above that prevented the temperature sensor from controlling the element temperature. The second issue was the location of the temperature sensor. To keep the mash temperature held, we really want to measure at the output of the mashtun; after the water has gone through the grain bed. This is just not possible on the BrewEasy setup due to the design of the return pipe which directs the flow via gravity directly into the boil kettle below.

breweasy_g2_adapter_lid_kit

BrewEasy 10 Gallon Adapter Kit. Photo by Blichmann Engineering.

In the picture, you can see the bent tube, which is the Drain Pipe with Orifice, designed for the G2 Kettles. Contrast that with the kit for the G1:

breweasy_g1-adapter-lid-kit

BrewEasy 20 Gallon Adapter Kit. Photo by Blichmann Engineering.

Even with the G1 kettle which uses a 90-degree street-elbow, it’s not clear to me that one would be able to introduce a stainless T and move the temperature sensor there.

With the mash complete we moved on the to boil which went off flawlessly if eerily almost silent due to the electric coil heat source.

A few other items worth mentioning.  On the Tower of Power (ToP) itself the display could use some UI/UX improvements.  The current and target temperatures are easily seen but it’s not immediately clear whether the heating element is on.  There is a small green dot indicating whether it is on or not but it should be quite a bit more obvious. Given the Tower of Power history, originally designed to control a Blichmann gas burner, it’s easy to see that a small light on the ToP wasn’t a big deal as the noise from a running burner would make things much more obvious. The silent nature of the electric element though exposes this design issue.

I’m a huge fan of the plastic hose clamps.  They are easily manipulated by fingers, rather than tools.  Since they’re not metal, one doesn’t have to worry about tearing or ripping the hose material.  Excellent attention to detail here.

The G2 kettle sight tube includes a metric scale (yay!) however, instead of having a second part, the sight tube now includes metric on one side and US on the other oriented upside-down so as to not confuse the brewer when in use.  I would have preferred the tube to include the unit abbreviation (L, G) next to the numbers so I could measure either in in Gallons or Liters without detaching the sigh tube to switch.

As mentioned above, if one does make use of the Autosparge, the 3-way flow meter from Blichmann should be a requirement, otherwise with the lid closed on the mashtun there is *no* way of knowing whether you’re actually recirculating wort or not.  It would be an improvement for the Tower of Power to require a *flow* meter in addition to the low-water detection switch and stop applying heat if either are tripped (no flow or low water should prevent firing of the element instead of just the sounding a horn as it does now).

In all, the BrewEasy is a really nice setup but I do believe that the current version certainly has some issues that make it more difficult to use than the current state-of-the-art setup from The Electric Brewery.

I’m looking forward to more brewdays with Mark as an assistant brewer; always something to learn from anyone’s brewday.

Recipe Details

Batch Size Boil Time IBU SRM Est. OG Est. FG ABV
12 gal 90 min 13.1 IBUs 5.6 SRM 1.045 1.011 4.4 %
Actuals 1.046 1.01 4.7 %

Style Details

Name Cat. OG Range FG Range IBU SRM Carb ABV
Saison 17 2 1.048 - 1.065 1.002 - 1.012 20 - 35 5 - 14 2.2 - 2.8 5 - 7 %

Fermentables

Name Amount %
Pilsen (BestMälz) 18.15 lbs 84.03
Wheat, Torrified 1.729 lbs 8
Oats, Flaked 13.83 oz 4
Caramunich Malt 13.7 oz 3.97

Hops

Name Amount Time Use Form Alpha %
Goldings, East Kent 1.18 oz 60 min Boil Pellet 5.6

Mash

Step Temperature Time
Mash In 152°F 60 min
Mash Out 168°F 10 min

Mosaic IPA v3

Mmm, Yellow Rose

Homebrew Mosaic IPA on the left, Yellow Rose on the right.

Brewing and IPA just the way you want has always proved to be more difficult that I’ve wanted.  The Mosaic IPA is no different.  I’ve had plenty of Lone Pint’s Yellow IPA to know what I really liked about it:  huge amazing Mosaic nose and aromatics, sweet, but light malt flavors, and a solid bitter and dry finish.

V1 was a small batch and didn’t quite attenuate exactly as intended, partly due to learning temps and mashing in the small batch setup but it was in the ballpark for what we wanted in a clone.

V2 was a scaled up to a 6 gallon batch.  When I brewed V2 I did have a slight shortage of Mosaic hops and had to go with a Mosaic/Simcoe blend.  In tasting, this had almost zero impact in aroma and flavor.  That wasn’t too surprising considering Mosaic’s heritage.   Color was spot on as well as clarity.  The real difference was in the taste.  In a side-by-side with a bottle of Yellow Rose, it was clear that my V2 was sweeter than YR; something I knew as I was sampling V2.  V2 finished around 1.016 or so which is much sweeter than my palate enjoys nowadays.  However, beyond the sweeter malt flavors it was lacking some of the hop bite.

The reviews of V2 were all similar: good, but not quite right, needs more hops.  Well, that’s not a problem.  So on to V3!  I wanted to achieve two things.  First, and foremost, the beer needed to finish drier than V2.  Considering the yeast I have, Dry English Ale, which already does a really solid 75 to 80% attenuation, I decided I’d employ some step mashing to maximize beta amylase hoping to reduce the final gravity.  The second goal was to bump up the bitter a bit as well, oh and this time use all Mosaic for sure.

The recipe below includes these changes.  Brewing of V3 was picture perfect.  However, somewhere along the mash, we accidentally bumped the efficiency from 72% to around 93%.  The pre-boil gravity target was to be 1.045 and we ended up with 1.055.  The final O.G ended at 1.083 instead of 1.067 meaning we had a 9% beer bordering on double IPA rather than a solid 6.5% IPA.  Worse things have happened.

Upon tasting V3 though it wasn’t significantly more bitter than V2 and it immediately dawned on me that the additional efficiency was the source of the trouble.  Since the boil gravity was much higher than expected, that resulted in a lower alpha-acid isomerization, and lower IBUs in the final product.  I should have adjusted the amount of hops in the boil to combat the higher gravity wort.  Clearly a V4 will be needed.

V3 finished at 1.016, but considering the starting gravity I don’t think I can expect WLP 007 and mash techniques to get any lower.  80% attenuation is the top end for this ale strain.  But I know some other strains that can go a bit higher.  For V4, I’ll brew another 6 gallons of wort but this time pitch my favorite strain, the Jester King mixed culture.

The Jester King blend attenuates just about anything down to 1.000 SG.  Jester King already produces a number of highly hopped beers, namely Wytchmaker Rye IPA and El Cedro, Cedar IPA.  I’m also interested in their collaborations with many breweries in which they use wort produced by their partners and then pitch the mixed culture and see what sort of beer it becomes.

V4 will use the same recipe as V3, but will use the JK mixed culture instead. Fermentation temperature will change as well, the JK blend tends to produce a more sour wort at cooler temperatures, so a minimum temp of about 75F or higher will be used to encourage the yeast to dominate and keep the bacteria in check (at least for a while).  As a bonus, cold conditioning in bottle will keep hop aroma as the brett is an oxygen consumer and the bacteria like to produce some lactic acid!  Who doesn’t want a hoppy sour beer? =)

Recipe Details

Batch Size Boil Time IBU SRM Est. OG Est. FG ABV
6 gal 90 min 81.0 IBUs 4.1 SRM 1.066 1.015 6.7 %
Actuals 0 1.01 -75.8 %

Style Details

Name Cat. OG Range FG Range IBU SRM Carb ABV
American IPA 14 B 1.056 - 1.075 1.01 - 1.018 40 - 70 6 - 15 2.2 - 2.7 5.5 - 7.5 %

Fermentables

Name Amount %
Pilsen (BestMälz) 14.764 lbs 100

Hops

Name Amount Time Use Form Alpha %
Mosaic 0.99 oz 90 min Boil Pellet 11.6
Mosaic 1.62 oz 10 min Boil Pellet 11.6
Mosaic 1.62 oz 20 min Aroma Pellet 11.6
Mosaic 3.17 oz 5 days Dry Hop Pellet 11.6

Miscs

Name Amount Time Use Type
Gypsum (Calcium Sulfate) 4.60 g 60 min Mash Water Agent
Calcium Chloride 2.70 g 60 min Mash Water Agent
Epsom Salt (MgSO4) 1.90 g 60 min Mash Water Agent
Whirlfloc Tablet 1.00 Items 15 min Boil Fining

Yeast

Name Lab Attenuation Temperature
Dry English Ale (WLP007) White Labs 75% 65°F - 70°F

Mash

Step Temperature Time
Beta Rest 140°F 45 min
Saccharification 152°F 20 min
Mash Out 168°F 10 min

Notes

Beta Focus for dryer beer:
Mash in 140F, hold 40 mins
Raise to 152, hold for 20 mins

Mosaic IPA v2

60 sq.ft of Bottle Aging

The Battle Shed is now equipped with a bottle shelf for aging

Earlier this year I took a swing at brewing a SMaSH Mosaic IPA as a small batch.  I was still learning the details of the stove-top setup so hitting the numbers was challenging.  I ended up a bit short on gravity, and found out that Safale S-04 is NOT a replacement for White Labs Dry English Ale (WLP007) in any way shape or form.

The result of the brew was a medium strength IPA with a great nose and solid taste, if a bit sweet in the finish.  It was received well enough that it’s been requested again, but in a much bigger batch.  I won’t tweak all that much, except the mash profile to ensure a really dry finish since the Pilsner malt lends a significant amount of sweetness, despite not having any Crystal in the grain bill.

https://utahbiodieselsupply.com/brewingfilters.php

8″ x 10″ Hop Spider from Utah Biodiesel

I’ll also get a chance to use a few of the newer stainless hop screens.  I picked up a hop basket to replace my DIY hop spider.  It’s been an excellent upgrade simplifying the setup and cleanup.  I’ll also use the dry-hop tubes  and finally a two-stage filter to enhance the hop nose all the while staying O2 free.

How can I get all of those awesome beer stickers off ?

The Leaky Fermentor fermented its last beer. =(

Finally, my previous fermentation chamber The Smelly Beast,  A.K.A the Leaky Dripper , A.K.A The Garage Heater, A.K.A The Best Deal on Craigslist,  A.K.A 25 Dollars worth of Fridge has died.  Over the summer it increasingly would not keep anything under 50 degrees.  While that was fine for fermenting, it was NOT fine for hop storage in the freezer compartment.  Also, the constant drip of liquid was not much fun either.   Luckily Woxford has recently completed a 8′ x 10′ temperature controlled Battle Shed whose ambient temp is around 55F.  This Mosaic IPA will be the first clean beer to ferment in the shed with a heat belt to drive the temperature profile needed for a nice dry IPA.

Looking forward to getting another nice clean IPA through the system.  Hope you enjoy Mosaic IPA V2!

Recipe Details

Batch Size Boil Time IBU SRM Est. OG Est. FG ABV
6 gal 90 min 66.9 IBUs 4.1 SRM 1.062 1.011 6.7 %
Actuals 1.046 1.01 4.7 %

Style Details

Name Cat. OG Range FG Range IBU SRM Carb ABV
American IPA 14 B 1.056 - 1.075 1.01 - 1.018 40 - 70 6 - 15 2.2 - 2.7 5.5 - 7.5 %

Fermentables

Name Amount %
Pilsen (BestMälz) 14.764 lbs 100

Hops

Name Amount Time Use Form Alpha %
Mosaic 0.44 oz 90 min First Wort Pellet 11.6
Mosaic 2.22 oz 5 min Boil Pellet 11.6
Mosaic 2.22 oz 20 min Aroma Pellet 11.6
Mosaic 3.17 oz 5 days Dry Hop Pellet 11.6

Miscs

Name Amount Time Use Type
Phosphoric 58.80 ml 60 min Mash Water Agent
Gypsum (Calcium Sulfate) 12.60 g 60 min Mash Water Agent
Calcium Chloride 1.80 g 60 min Mash Water Agent
Epsom Salt (MgSO4) 1.20 g 60 min Mash Water Agent

Yeast

Name Lab Attenuation Temperature
Dry English Ale (WLP007) White Labs 75% 65°F - 70°F

Mash

Step Temperature Time
Protein Rest 131°F 15 min
Saccharification 148°F 45 min
Mash Out 168°F 10 min

Barrel Fermented Woxford’s Revenge

Dat Glycol Loop!

Jester King uses shipping containers to bottle condition upcoming beer.

Now that the Battle Shed is up, it’s time to brew a beer and ferment it within with only ambient temperate to control it. I’ve had three beers age in one of my 5 gallon Balcones Whiskey barrel and have been waiting to have the shed ready to bottle the previous batch (Quad Damage) and then brew and prepare a Boxer’s Revenge inspired clone.

I brewed a test-batch earlier this year and the Boxer’s clone came out very nice. Slightly under carbed due to testing out new bottling method (pre-packaging yeast in gelatin caps) which worked well but needed a bit more sugar to get the right level. The taste and aroma were spot on. The only real concern was that it needed quite a bit more oak to make it more like Boxer’s. For this batch I’ll ferment it and again it entirely in the oak barrel.

Nothing special in the recipe besides using the Jester King mixed culture. Note: Mash @ 150F for 75 minutes. Enjoy!

Recipe Details

Batch Size Boil Time IBU SRM Est. OG Est. FG ABV
6 gal 90 min 22.4 IBUs 7.5 SRM 1.089 SG 1.009 SG 10.7 %

Style Details

Name Cat. OG Range FG Range IBU SRM Carb ABV
Wild Specialty Beer 28 C 1.02 - 1.09 1 - 1.016 5 - 50 2 - 50 2 - 3 2 - 10 %

Fermentables

Name Amount %
Pilsen (BestMälz) 16 lbs 71.11
Wheat Malt, Ger 5 lbs 22.22
Pale Moon (Blacklands) 1 lbs 4.44
Caramunich Malt 0.5 lbs 2.22

Hops

Name Amount Time Use Form Alpha %
Styrian Goldings 2.12 oz 60 min Boil Pellet 3
Cascade 1 oz 7 days Dry Hop Pellet 5.9
Centennial 1 oz 7 days Dry Hop Pellet 11.4

Yeast

Name Lab Attenuation Temperature
Jester King Culture (0001) Jester King 86% 50°F - 90°F

Pfunk it Up

3 Funks FTW!

Capturing some local microflora with apple juice. Two types of wild flowers and a control. Left out overnight in the Texas winter, now incubating at 75F.

Along side Jester King as one of my favorite breweries is Prairie Artisan Ales.  They’ve been churning out great beer after beer.  Prairie is always experimenting and playing with bold flavors while mixing in healthy amounts of barrel aging.  One of their earlier beers captured my attention.  Funky Galaxy.  When fresh, this beer delivers this amazing CDA/Black IPA punch, but with a light farmhouse funk in the nose, but enough citrus and tropical fruits that it drinks really easy.

Here’s the fun part: if you sit on this one for a few months the Brett transforms the beer dramatically.  Much of the hop aroma fades and/or is consumed by the Brett and produces one of the *funkiest* Brett B beers I’ve ever had.  Comparing a freshly bottled beer side-by-side to an aged one makes one wonder if these were even the same beer at all.

This one has been on my list for some time but never got to brew it.  I’ve had some really good success with using Jester King mixed culture yeast and bacteria.  The Boxer’s Revenge inspired one gallon batch is already amazing at two months, only needed a little more oak character before bottling.  This recipe has about 30 IBU so I know that the JK yeast will send plenty of sour punch with this recipe.  Mixing that with the roast and citrus hops should make for a very tasty brew.

The origin of the malt bill was inspired from Hops and Grain’s Dark IPA that they brewed a few years back that I really enjoyed.  I picked that back up here and bumped the gravity up to match the 8% of Funky Galaxy, and switched the hops to Galaxy and Citra for a really nice citrus/tropical fruit nose.  Looking forward to brewing a bigger batch on the full-scale equipment as well.

Here’s Pfunky Galaxy

Recipe Details

Batch Size Boil Time IBU SRM Est. OG Est. FG ABV
6 gal 60 min 29.3 IBUs 45.8 SRM 1.078 1.016 8.1 %
Actuals 1.046 1.01 4.7 %

Style Details

Name Cat. OG Range FG Range IBU SRM Carb ABV
Belgian Specialty Ale 16 E 1.03 - 1.08 1.006 - 1.019 15 - 40 3 - 50 2.1 - 2.9 3 - 9 %

Fermentables

Name Amount %
Organic Brewers Malt 2-Row (Briess) 14.25 lbs 77.03
Carafa III 1.25 lbs 6.76
Aromatic Malt 1 lbs 5.41
Caramunich Malt 14 oz 4.73
Oats, Flaked 14 oz 4.73
Chocolate Malt (Thomas Fawcett) 4 oz 1.35

Hops

Name Amount Time Use Form Alpha %
Citra 0.11 oz 60 min Boil Pellet 14.4
Galaxy 0.11 oz 60 min Boil Pellet 14.8
Citra 1 oz 10 min Aroma Pellet 14.4
Galaxy 1 oz 10 min Aroma Pellet 14.8
Liberty 1 oz 10 min Aroma Pellet 3.9
Galaxy 2 oz 7 days Dry Hop Pellet 14.8

Miscs

Name Amount Time Use Type
Phosphoric Acid 21.40 ml 60 min Mash Water Agent
Gypsum (Calcium Sulfate) 4.80 g 60 min Mash Water Agent
Calcium Chloride 4.30 g 60 min Mash Water Agent
Whirlfloc Tablet 1.00 Items 15 min Boil Fining

Yeast

Name Lab Attenuation Temperature
Jester King Mixed Culture (3711) Jester King 81% 60°F - 95°F
Brettanomyces Bruxellensis (WLP650) White Labs 70% 65°F - 72°F
Brettanomyces Lambicus (WLP653) White Labs 70% 65°F - 72°F

Mash

Step Temperature Time
Protein Rest 146°F 30 min
Saccharification 155°F 30 min
Mash Out 168°F 10 min

Notes

Based on Hops and Grain Dark IPA, adjusted for Pairie Ale Funky Galaxy parameters (30 IBU, *loads of Galaxy hops). Using JesterKing mixed culture yeast.