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Decoction is a way to raise mash temperature by removing a portion of the mash, heating it,and returning it to the mash vessel.
Decoction is a way to raise mash temperature by removing a portion of the mash, heating it,and returning it to the mash vessel.


[[Image:decoction.jpg]]
==Editor==
{|
|valign="top"|The various fields in the "Decoction" edit box are used for the following purposes:
 
;Name
:Give your decoction step a descriptive name, e.g., 'Single Decoction.'
 
;Notes
:This is useful to mention anything special about this step for this particular recipe, etc.
 
;Decoction Vessel
:This field is selected via a drop-down menu which lists the various "vessels" you have created in the "Vessels" display; you should select the vessel you are using for the decoction itself, and it should be calibrated (done via the edit vessel screen).
 
;Heat Source
:You need to note what heat source you will use to heat your decocted volume.
 
;Target Temp
:What will the target temperature be for the mash upon returning the decocted volume?
 
;Decoction Volume
:This is calculated based on your Target Temp, or you can fill this in and have the Target Temp calculated.
 
;Equalize
:How long will it take for the temperature to equalize in the mash-tun when you return the decocted volume?
 
;Heat to Boil Output
:This is the percent of heat output you should use from your heat source to have the decocted volume reach boil. This can be calculated for you based on the Heat to Boil Duration.
 
;Heat to Boil Duration
:How long should it take for the decocted volume to come to a boil? Ths can be calculated based on your Heat Output setting.
 
;Boil Output
:This allows you to set how much heat will be applied during the boil phase of the decoction based on your heat source. Adjusting it affects the volume being returned to the mashtun due to evaporation losses, and thus affects other calculations in the decoction step.
 
;Boil Duration
:How long do you plan to boil the decocted volume? This affects evaporation losses.
|valign="top"|[[Image:decoction.jpg|left]]
|}
{{pics}}
==Usage Notes==
The volume needed to decoct is calculated based on other variables in your mash schedule, such as the infusion rate in your mash-in step (recommended 1.25-1.33 qts/lb). Basically, for a decoction step you need to select a vessel that you will be using for the decoction heating and a heat source, such as a burner that has been calibrated for heat output. Put the temperature that you want your mash to be when you return the decocted portion back to the mash-tun; this allows BeerTools Pro to calculate the decoction volume that you will remove for your decoction step. You can adjust the Heat to Boil Output slider to determine how strong your flame will be during heating; this determines how many minutes it will take you to get to a boil. Finally, you set how long you will be boiling the decocted volume to account for evaporation from your kettle.
 
==Background==
Decocting is a technique developed by old style European brewers for brewing lager beers. Historically, it became practical for several reasons. First, precise analytical equipment for monitoring temperatures did not exist, so basing mash methods from simple proportional removals of the mash that were boiled and returned to the main mash vessel allowed fairly precise and consistent mash results. Water was often quite basic, so an acid rest was needed to help acidify the mash, and this acid rest worked well in a decoction schedule. Also, grain production was not as advanced as it is today, so grains lacked the high degree of in-kernel modification that we have today. This meant that enzymes were unavailable in the grains, so a protein rest to allow the production of [http://en.wikipedia.org/wiki/Protease proteases] was necessary. Finally, greater malt complexity was achieved in their beers through the production of melanoidins during the decoction process.
 
Nowadays, most German breweries no longer decoct, but use infusion mashing with melanoidin production being achieved through advances in their wort boiling equipment. For the homebrewer, decoction can be used to create greater flavor complexity in their lager beers while using traditional equipment. Boiling the grains for a short time, e.g., 10 minutes, will reduce the size and complexity of malt starch and protein molecules and make them more convertable into sugars for the yeast to consume, as well as producing a clearer beer. It may also raise your effiency. Additionally, decoction can give the beer slightly more color through kettle caramelization and a deeper malt flavor from the production of melanoidins from the [http://en.wikipedia.org/wiki/Maillard_reaction Maillard reaction].
 
With highly modified malts such as those in production worldwide nowadays, only a protein rest and a single decoction of 33-40% of the heaviest mash with a raise to [http://www.m-w.com/dictionary/saccharification saccharification] temperature is needed. This allows for a fairly simple mash schedule that requires about the same time as does an infusion mash schedule.
 
==Example Procedure==
After a 5-minute protein rest at approximately 130ºF, pull the decoction amount using a strainer to get the thickest portion of the mash with only enough liquid to prevent scorching, but not so much liquid as to cover the grains. Bring the decocted portion to 150ºF over ten minutes, then to 167ºF over 10-15 minutes, and finally to a boil. Stir constantly during heating and boiling and use a relatively low flame to avoid scorching. After 5-20+ minutes of boiling and constant stirring, depending on the degree of darkening, caramelization, and melanoidin complexity you desire, return the decocted portion to the mash to raise the mash to saccharification temperature. After 15 minutes at saccharification rest, begin testing for starch conversion in preparation for your sparge/separation.
 
==Example==
{{btp|GW_Premium_Pils_DblD.btp|GW_Premium_Pils_DblD}}


==See also==
==See also==
Line 12: Line 65:
* [[Fly sparge]]
* [[Fly sparge]]
* [[Batch sparge]]
* [[Batch sparge]]
==Notes==
This is a technique developed by old style European brewers for brewing lager beers. Mostly used on undermodified malts that can't fully convert the starches to sugars. Boiling the grains for a short time, 10 mins. will reduce the size and complexity of malt starch and protein molecules and make them more convertable into sugars for the yeast to eat, and make a clearer beer. It will also raise your effiency. It will give the beer slightly more color, and a deeper malt flavor, creating a compound called melonoidin. Think of searing a steak on a grill.
With highly modified malts such as those in the U.S., only a protein rest and a single decoction 33-40% of the thick mash, with a raise to saccarification rest may be sufficient. After your protein rest pull the decoction amount and bring the malt up to boiling gently by stiring and 50% of your heat output to avoid scorching. You can use a strainer to pull out the thick malt, with only enough liquid to cover it. Note your data in the decoction box in BTP.

Latest revision as of 12:10, 14 March 2008

Decoction is a way to raise mash temperature by removing a portion of the mash, heating it,and returning it to the mash vessel.

Editor

The various fields in the "Decoction" edit box are used for the following purposes:
Name
Give your decoction step a descriptive name, e.g., 'Single Decoction.'
Notes
This is useful to mention anything special about this step for this particular recipe, etc.
Decoction Vessel
This field is selected via a drop-down menu which lists the various "vessels" you have created in the "Vessels" display; you should select the vessel you are using for the decoction itself, and it should be calibrated (done via the edit vessel screen).
Heat Source
You need to note what heat source you will use to heat your decocted volume.
Target Temp
What will the target temperature be for the mash upon returning the decocted volume?
Decoction Volume
This is calculated based on your Target Temp, or you can fill this in and have the Target Temp calculated.
Equalize
How long will it take for the temperature to equalize in the mash-tun when you return the decocted volume?
Heat to Boil Output
This is the percent of heat output you should use from your heat source to have the decocted volume reach boil. This can be calculated for you based on the Heat to Boil Duration.
Heat to Boil Duration
How long should it take for the decocted volume to come to a boil? Ths can be calculated based on your Heat Output setting.
Boil Output
This allows you to set how much heat will be applied during the boil phase of the decoction based on your heat source. Adjusting it affects the volume being returned to the mashtun due to evaporation losses, and thus affects other calculations in the decoction step.
Boil Duration
How long do you plan to boil the decocted volume? This affects evaporation losses.
Decoction.jpg
Picture.png
This topic needs images.
Images need to be updated or added.

Usage Notes

The volume needed to decoct is calculated based on other variables in your mash schedule, such as the infusion rate in your mash-in step (recommended 1.25-1.33 qts/lb). Basically, for a decoction step you need to select a vessel that you will be using for the decoction heating and a heat source, such as a burner that has been calibrated for heat output. Put the temperature that you want your mash to be when you return the decocted portion back to the mash-tun; this allows BeerTools Pro to calculate the decoction volume that you will remove for your decoction step. You can adjust the Heat to Boil Output slider to determine how strong your flame will be during heating; this determines how many minutes it will take you to get to a boil. Finally, you set how long you will be boiling the decocted volume to account for evaporation from your kettle.

Background

Decocting is a technique developed by old style European brewers for brewing lager beers. Historically, it became practical for several reasons. First, precise analytical equipment for monitoring temperatures did not exist, so basing mash methods from simple proportional removals of the mash that were boiled and returned to the main mash vessel allowed fairly precise and consistent mash results. Water was often quite basic, so an acid rest was needed to help acidify the mash, and this acid rest worked well in a decoction schedule. Also, grain production was not as advanced as it is today, so grains lacked the high degree of in-kernel modification that we have today. This meant that enzymes were unavailable in the grains, so a protein rest to allow the production of proteases was necessary. Finally, greater malt complexity was achieved in their beers through the production of melanoidins during the decoction process.

Nowadays, most German breweries no longer decoct, but use infusion mashing with melanoidin production being achieved through advances in their wort boiling equipment. For the homebrewer, decoction can be used to create greater flavor complexity in their lager beers while using traditional equipment. Boiling the grains for a short time, e.g., 10 minutes, will reduce the size and complexity of malt starch and protein molecules and make them more convertable into sugars for the yeast to consume, as well as producing a clearer beer. It may also raise your effiency. Additionally, decoction can give the beer slightly more color through kettle caramelization and a deeper malt flavor from the production of melanoidins from the Maillard reaction.

With highly modified malts such as those in production worldwide nowadays, only a protein rest and a single decoction of 33-40% of the heaviest mash with a raise to saccharification temperature is needed. This allows for a fairly simple mash schedule that requires about the same time as does an infusion mash schedule.

Example Procedure

After a 5-minute protein rest at approximately 130ºF, pull the decoction amount using a strainer to get the thickest portion of the mash with only enough liquid to prevent scorching, but not so much liquid as to cover the grains. Bring the decocted portion to 150ºF over ten minutes, then to 167ºF over 10-15 minutes, and finally to a boil. Stir constantly during heating and boiling and use a relatively low flame to avoid scorching. After 5-20+ minutes of boiling and constant stirring, depending on the degree of darkening, caramelization, and melanoidin complexity you desire, return the decocted portion to the mash to raise the mash to saccharification temperature. After 15 minutes at saccharification rest, begin testing for starch conversion in preparation for your sparge/separation.

Example

http://www.beertoolspro.com/images/btp-icon.png GW_Premium_Pils_DblD

See also