Brewing: the Mash
The mash is the process that
converts the starches in the malted barley into fermentable
sugars. At the Carolina
Brewery, they start by crushing the malted barley between
rollers to break up the kernel.
There is a fine tradeoff in the rolling process: the more
the kernel is broken up, the more sugars can be extracted from
the grains; but if it is broken up too much, the husk that
surrounds the kernel may get broken down, which can cause a
stuck mash. If the kernel is broken up just enough, then when
the mash is finished, the whole husks form a filter bed that
captures any solids from the liquid; but if the husks are
broken down too much, they clog up and don't let the liquid
through -- a stuck mash.
Next, the crushed grains pass through a feed pipe into the
mash-lauter-tun. This insulated vessel has a device called a
hydrator, which sprays heated water onto the grains as they
enter. This eliminates any dry spots in the mash -- dry spots
mean wasted sugars. The wet grains stay in the mash-lauter-tun
for an hour. Since the vessel is insulated, the temperature
stays at around 150 F (65 C).
The purpose of the mash is to convert the starches in the
malted barley into fermentable sugars to be used in the next
step of the brewing process. Starches are strings of many
glucose molecules chained together -- these chains must be
broken down into chains of only two or three glucose molecules
before they can be fermented. We learned earlier that the
malted barley contains enzymes, which can convert the
starches.
There are two different types of enzymes in the malted
barley: alpha-amylase and beta-amylase. The alpha
enzymes break up the long chains of starches by splitting
them in half. The beta enzymes break down the starches
by chopping them off a couple at a time from the ends of the
chain. Only if these two enzymes work together can the
conversion be accomplished in a reasonable amount of time.
There is a catch though: The alpha enzymes are most active at
149 to 153 F (65 to 67 C), and the beta enzymes are most
active at 126 to 144 F (52 to 62 C). So the temperature and
duration of the mash must be carefully controlled to get a
good conversion.
The last steps needed to complete the mash are
lautering and sparging. The liquid is drained
from the bottom of the mash-lauter-tun and then recirculated
to the top so that it is filtered through the husks of the
spent grains. Additional heated water is then poured over the
grains -- a process called sparging -- to make sure all of the
sugars are removed.
The mash is an amazing process. Before the mash starts, the
grains don't taste at all sweet, but the liquid that is
drained off from the grains at the end of the mash is very
sweet and sticky. This liquid, which now contains mostly
fermentable sugars, goes on to the boil.
Here are some interesting links:
