Recipes

Sous Vide Beer (In-Progress)

Article and Photos by Joe Strybel

Yup, you read that correctly.

We’ve received a lot of inquiries about this process, but…we’re not done yet!

The idea here is to approach the brewing process from a different angle. PolyScience is a leader in temperature control and this is a prime area to flex a little of that precision and know-how.

If it’s been a while since grade school, here’s a refresher on the Scientific Method:

  • Ask a Question Can the sous vide technique efficiently yield beer? If so, are there any notable improvements to flavor, mouthfeel, yield and ABV?
  • Do Background Research There have been few attempts at sous vide brewing and there’s very little information available on previous trials.
  • Construct a Hypothesis Sous vide beer brewing will yield energy efficient processes and will have no noticeable effect on flavor, mouthfeel, yield and ABV.
  • Test Your Hypothesis by Doing an Experiment Five, individual gallon batches will be produced. Two are controls. Of those two, one will be barrel aged using the Sonicprep™ – just for fun. The remaining three are all made using the sous vide approach. These three present different scalings of ingredients and one will also be barrel aged with the Sonicprep.™
  • Analyze Your Data and Draw a Conclusion TBD
  • Communicate Your Results So far, the hops were picked and dried, the grains were mashed, the wort got hopped up and the yeast was pitched. Now, we have to sit tight for a bit and enjoy the gentle bubbles coming out of the air locks. We’ll continue to update throughout the experiment. Cheers!

Copyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe StrybelCopyright © 2012 PolyScience; Photos and Recipes by Joe Strybel
Ingredients/Grain Bill:

FERMENTABLES, EXTRACT RECIPE:

  • 3.15lbs (1428.82 grams – 285.76 g/gal) Amber Malt Syrup (60 min)
  • 6lbs (2721.55 grams – 544.31 g/gal) Amber Malt Syrup – late addition (15 min)
  • 1lbs (453.59 grams – 90.72 g/gal) Soft Blond Candy Sugar – late addition (1 min)

OR…

FERMENTABLES, ALL GRAIN RECIPE:

  • 9.5 lbs (4309 grams – 861.8 g/gal) Rahr 2-Row Pale
  • 2.5 lbs. (1134 grams – 226.8 g/gal) German Munich Malt
  • .75 lbs. (340 grams -68 g/gal) Briess Caramel 60L

HOPS & FLAVORINGS

  • 1 oz (28.35 grams – 5.67 g/gal) Summit (60 min)
  • 2 oz (56.7 grams – 11.34 g/gal) Mt. Hood (30 min)
  • 1 oz (28.35 grams – 5.67 g/gal) Chinook (20 min)
  • 3.4 oz (96 grams – 19.2 g/gal) Fresh Cascade (10 min) (Or substitute: 3 oz / 85g Cascade Pellets  - 17 g/gal (10 min)
  • 2 grams (.4 g/gal) Grains of Paradise (5 min)

YEAST:

  • Wyeast #1056 American Ale Yeast. (775 ml Starter – 155 ml/gal)
  • Optimum temperature: 60–72°F

PRIMING SUGAR:

  • 5 oz (141.75 grams – 28.35 g/gal) Priming Sugar

For more information on food safety, please click here.

 

 


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