I0D Doppelbock 03.23.19 Dan - Beer Recipe - Brewer's Friend

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I0D Doppelbock 03.23.19 Dan

249 calories 20.6 g 12 oz
Beer Stats
Method: BIAB
Style: Doppelbock
Boil Time: 60 min
Batch Size: 5.25 gallons (fermentor volume)
Pre Boil Size: 7 gallons
Post Boil Size: 6 gallons
Pre Boil Gravity: 1.065 (recipe based estimate)
Post Boil Gravity: 1.076 (recipe based estimate)
Efficiency: 60% (brew house)
Source: Dan and Jim
Calories: 249 calories (Per 12oz)
Carbs: 20.6 g (Per 12oz)
Created: Wednesday March 20th 2019
1.076
1.012
8.3%
19.1
18.1
5.6
n/a
 
Fermentables
Amount Fermentable Cost PPG °L Bill %
12 lb German - Munich Light12 lb Munich Light 37 6 66%
3 lb German - Pilsner3 lb Pilsner 38 1.6 16.5%
2 lb American - Carapils (Dextrine Malt)2 lb Carapils (Dextrine Malt) 33 1.8 11%
1 lb American - Caramel / Crystal 40L1 lb Caramel / Crystal 40L 34 40 5.5%
3 oz American - Dark Chocolate3 oz Dark Chocolate 29 420 1%
18.19 lbs / 0.00
 
Hops
Amount Variety Cost Type AA Use Time IBU Bill %
0.50 oz Northern Brewer0.5 oz Northern Brewer Hops Pellet 7.8 Boil 60 min 12.34 50%
0.50 oz Hersbrucker0.5 oz Hersbrucker Hops Pellet 4 Boil 90 min 6.77 50%
1 oz / 0.00
 
Other Ingredients
Amount Name Cost Type Use Time
6 g Calcium Chloride (dihydrate) Water Agt Mash 1 hr.
3 g Gypsum Water Agt Mash 1 hr.
1 each Whirlfloc Water Agt Boil 10 min.
 
Yeast
Fermentis - Saflager - German Lager Yeast W-34/70
Amount:
2 Each
Cost:
Attenuation (custom):
83%
Flocculation:
High
Optimum Temp:
48 - 72 °F
Starter:
No
Fermentation Temp:
56 °F
Pitch Rate:
0.35 (M cells / ml / ° P) 128 B cells required
0.00 Yeast Pitch Rate and Starter Calculator
Priming
CO2 Level: 2.44 Volumes
 
Target Water Profile
Golden State Water
Ca+2 Mg+2 Na+ Cl- SO4-2 HCO3-
0 0 0 0 0 0
Mash Chemistry and Brewing Water Calculator
 
Mash Guidelines
Amount Description Type Start Temp Target Temp Time
Decoction -- 145 °F 60 min
Decoction -- 158 °F 60 min
Decoction -- 170 °F 60 min
Quick Water Requirements
Water Gallons  Quarts
Strike water volume (equipment estimates 9.31 g | 37.2 qt) 9.52 38.1  
Mash volume with grains (equipment estimates 10.77 g | 43.1 qt) 10.98 43.9  
Grain absorption losses -2.27 -9.1  
Mash Lauter Tun losses -0.25 -1  
Pre boil volume (equipment estimates 6.79 g | 27.2 qt) 7 28  
Boil off losses -1.5 -6  
Hops absorption losses (first wort, boil, aroma) -0.04 -0.2  
Post boil Volume (equipment estimates 5.25 g | 21 qt) 6 24  
WARNING: Exceeded batch size - reduce boil size    
Volume into fermentor (equipment estimates 6 g | 24 qt) 5.25 21  
Total: 9.52 38.1
Equipment Profile Used: System Default
 
Notes

♦ BREW DATES:
Date: Brew Day • 03.23.19
Gravity End of Boil (OG) • 1.076
Date: Pitch Yeast • 03.24.19
Date: Secondary • 04.05.19
Gravity (FG) • 1.022 ABV: 6.76% Final
Date: Keg Day • 05.14.19
Drafted Who’s House • Dan's

♦ SESSION NOTES: BIAB STEP MASH 2 hours with a rest
45 Mins @ 145°, 50 Mins @ 158°, 20 Mins @ 170°

♦ STANDARD BREWING NOTES:

Doppelbock literally means “double bock.” It is more extreme than a regular bock, but not twice so, with alcohol levels between 7 and 8 percent by volume. Its roots go back to the Paulaner branch of the Benedictine order of monks who were resident friars of the Dukes of Bavaria. Having witnessed strong beer-making in the noble brew houses, they tried their hands at the brew themselves, and soon this new and strong liquid bread became the obvious meal of choice for their frequent fasts.

The Doppelbock is a strong, very malty German lager with appreciable alcohol, sweetness, and malt-driven flavors and aromas. Brewed correctly, this beer is an easy-drinker “brewed for holy nourishment,” but it is often overdone, which can make it overly big and alcoholic, so avoid that if you can.

Squeeze The Bag?
There are two reasons to squeeze the bag: 1. Squeeze it a little bit to prevent it from dripping on the floor, and 2. Squeeze it quite a bit to wring out every milliliter of wort. Option 1 – A Little Bit, is never a bad idea. Option 2 – A lot, depends on the kind of grain you are mashing. The base malts and low color and caramel malts give up their extract easily, so squeezing the bag gives you retained wort instead of retained extract. Roast malts and high color caramel malts, like Special B, don’t give up their extract easily, and aggressively squeezing the grain bag will release more of the roast compounds into the wort. These compounds can taste quite harsh. Too high a wort pH can commonly lead to tannin and silicate extraction from the grain, but high pH is usually not a problem with BIAB. However, excess pressure can excrete these compounds into your wort as well, so in general, I don’t recommend squeezing the bag to wring every last drop, and in particular, I certainly don’t recommend it when you are brewing dark beers. See my article, “Mechanics and Chemistry of Steeping” in BYO, March-April 2016. (John Palmer)

Water Considerations
The high water to grist ratio can cause problems with the mash pH if you have high alkalinity water – and most people do. What is high alkalinity water? Look at your water report for Total Alkalinity as Calcium Carbonate. If this number is 100 ppm or greater, you alkalinity is high. If it is more than 150, then it is very high. Dark beers can often be brewed with high alkalinity water without having pH/flavor problems, but very high alkalinity often results in high mash and wort pH and harsh flavors.

If you have high or very high alkalinity water, I recommend you dilute that water 50/50 with distilled water, and/or use some Acidulated malt or brewing acid (ex. lactic acid) to help neutralize the alkalinity and bring the mash pH down into the recommended range, 5.2-5.6.

I always recommend that brewers check their mash pH on a cooled sample with a pH meter at the beginning of the mash, about 5-15 minutes after mashing-in. Generally speaking, your mash pH should be between 5.2-5.6, although it can be as high as 5.8, but should not be below 5.2 or above 5.8. Staying within this range will optimize beer flavor and conversion. If your measured mash pH is 6.0 or above, you have a much higher probability of harsh flavors due to tannin and silicate extraction from the grain. Sparging with high alkalinity water will only make the problem worse. The beauty of BIAB is that it is primarily a no-sparge method, and not sparging reduces the likelihood of high pH wort.

Extraction Efficiency
The efficiency of any brewing process depends primarily on the water to grist ratio that you are using. Generally speaking, the efficiency of BIAB should be between 74-84% for beer OG’s between 1.040 – 1.075, lower OG having higher efficiency than high OG. Crushing the grist finer/smaller will increase efficiency by a few percent, but I really don’t recommend doing that as it will increase the fines in your wort and slow the draining from the bag. If you plan your grain bills conservatively, you should easily hit your OG target. The BIAB water retention factor, 0.25 quart per pound of grain, is typically half that of a standard mash 0.5 quart per pound. In liters and kilograms, these numbers are roughly 0.5 liter per kilogram and 1 liter per kilogram. The weight of the grain pressing on the bag naturally drains more wort than a standard lauter tun, and you therefore get more wort from the same size mash, all else being equal.

Here’s an example of planning a BIAB grainbill: Let’s say you want to collect 7 gallons of wort to make 6 gallons of 1.055 wort into the fermenter. We’ll assume our efficiency is about 80%, given that it’s about halfway in the range stated above. The target gravity for the 7 gallons of wort from the BIAB mash is 6 x 55 / 7 = 47 or 1.047. The maximum extract we can typically get from a weight of grain is 80% by weight, which is 37 PPG (points per pound per gallon) or 309 PKL (points per kilogram per liter). Multiplying these numbers by our brewing efficiency of 80% gives us an anticipated yield of 29.6 PPG or 247 PKL. To calculate the amount of grain required, divide the total gravity points (OG x Volume) by this anticipated yield. 6 x 55 = 330 / 29.6 = 11.15 pounds. In kilograms and liters, this would be 22.7 x 55 = 1248.5 / 247 = 5 kilograms, which is the same as 11.15 pounds.

The wort retention is 0.25 quart per pound, so for 11.15 pounds, about 2.8 quarts will be retained. This means that you would want to mash in with 7 gallons plus 2.8 quarts, or about 31 quarts. This volume will give you a water to grist ratio of 2.8 qts./lb. and should give you the 1.047 boil gravity by my calculations.

Clarity Concerns
In general, wort clarity coming out of the mash and into the boil is not a concern. Wort turbidity (essentially the opposite of clarity) has been argued back and forth for years. On the one hand, there is a case for shorter flavor stability for a beer that is not separated from the trub during fermentation, and not adequately clarified before packaging, due to excess lipids that can oxidize and generate off-flavors. On the other hand, a highly clarified wort doesn’t provide sufficient nutrients to the yeast, which will cause them to need more aeration so they can synthesize what they need, and will result in a less healthy fermentation and more fermentation byproducts. Note that in one case we are talking about turbid beer being bad, and in the other we are talking about turbid wort being good. Where is the real conflict?

In fact, recent studies on wort turbidity, wort zinc, and lipid content indicate that turbid wort generally produces a better fermentation and a better tasting beer. However, once that fermentation is done, good trub separation is necessary to promote flavor stability. Get the beer out of the fermentor and away from the trub to reduce oxidation. Fining agents such as isinglass and gelatin can help in this regard. And remember, all things in moderation – just because some trub into the fermenter is good for yeast health, doesn’t mean that lots of trub is better. Don’t go overboard with this. Bottom line: Don’t worry about wort clarity into the boil.

Advanced BIAB Techniques
The beauty of BIAB is that it is a no-sparge method. Sparging in a traditional lauter tun system can get a higher percentage of the total extract in the grain, but that is not necessary on the homebrewing scale. You can readily achieve good efficiency by increasing the water to grist ratio as described here and in the latest (4th) edition of How To Brew. If you have a high alkalinity problem with your water, you may want to use a more typical water to grist ratio of 1.5-2 quarts per lbs. (3-4 liters per kg) to conduct the mash, and then add the rest of the water at the end. At the end of the typical 1 hour mash, you would add the remaining couple gallons, stir to get everything homogenous, let it rest a few minutes, and then drain as usual. The idea is that you are optimizing the pH conditions for the mash at the lower water to grist ratio, and then adding more water later to get your total boil volume and gravity, without sparging.

BIAB is not limited to single temperature rests. Many brewers want to maximize the fermentability of their wort by doing both a beta and alpha amylase rest at 145°F (62.5°C) and 158°F (70°C), respectively. If you are mashing in a kettle, simply raise the bag off the bottom and stir while you are heating from the stove or burner. If you are mashing in a cooler, then simply start the mash at a lower water to grist ratio, such as 1.25 or 1.5 quarts per lbs., (2.5-3 liters per kg) and use infusions of hot or boiling water to raise the temperature to the next rest. Be sure to add the hot water slowly and stir during to reduce the stress on the enzymes. Decoction is another good way to conduct multiple temperature rests. Decoction sounds intimidating, but it is really quite easy. Scooping out the grain with a large strainer and leaving most of the liquid behind preserves the enzymes in the mash. Bring the decoction to a boil in a separate pot or kettle, and add it back to the mash. The boiling hot grain needs to be added slowly and stirred while adding just like the infusions.

Brew in a bag (or basket) might actually be the original home brewing method from thousands of years ago, and traditional mash and lauter tuns may actually be new-fangled contraptions to enable large scale brewing in the relatively recent past centuries. Therefore, embrace this new-old method and don’t be afraid to adapt it to modern brewing.

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  • Last Updated: 2020-04-21 12:44 UTC