Now, the ways are changing—people begin to brew their own beer at home. However, do you know the difference between home-made beer and factory-made beer during brewing? You will find the answers here
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Your step by-step guide to learn the difference between home-made beer and factory-made beer-ppt
1. By Iva CotterBy Iva Cotter
Your Step-By-Step Guide to Learn the
Difference Between Home-Made
Beer and Factory-Made Beer
2. Introduction
Have you ever taken a drink of beer? I believe most people's answers are "yes". Actually, beer
is one of the most common and widely consumed alcoholic drinks in the world. Brewed from
cereal grains, the beer is given a special aroma and good taste, which makes it the third most
popular drink in the world. We used to buy beer in the supermarket or drink some in a pub.
Now, the ways are changing—people begin to brew their own beer at home. However, do you
know the difference between home-made beer and factory-made beer during brewing? This
article will show you differences step by step.
3. Steps
The First Step: Saccharification
The Second: Step Filtration
The Third: Step Boiling and Cooling
The Fourth Step: Fermentation and Bottling
4. Equipment and Materials
Malt crushing equipment: hand mill or roller-crushing mill.
Saccharification equipment: 7-gallon barrel, 5-gallon stainless steel pot, mixing tools,
filter, sugar meter or hydrometer, glass measuring cylinder(250ml), thermometer,
electronic scale, silicone tube (supporting the mash of the mashing pot), measuring
cup(500ml) , triangle bottle(250ml) (or other containers used to activate yeast).
Boiling equipment: one 8-gallon stainless steel pot.
Cooling equipment: 8-15m coil (stainless steel or copper tube, or plate heat
exchanger), or 3-5 large beverage bottles filled with water frozen into ice.
Fermentation equipment: fermenter (recommend to prepare 2 fermenters, 1 for
fermentation and another for bottling).
Other equipment: 1-2m silicone tube, 75% alcohol or other disinfectants
Bottling equipment: capper, empty bottle, metal cap or swing cap, bottle brush, or
PET plastic bottle.
Materials: • Malt 4kg • Hops 40g • Yeast: 11.5g • Water 28L
6. What is Saccharification?
Saccharification is actually the process of converting the starch in the malt
into maltose, which is then converted into alcohol by yeast. That is the
reason why you would be drunk after drinking too much. Nevertheless,
saccharification is actually a complicated process, in which some special
substances are produced, adding flavor to the beer.
7. How?
The saccharification method is simple. Just place the milled malt in water (66-68 )℃
for at least one hour.
As mentioned above, both hand mill and roller-crushing mills are ok. The final
purpose is to crush the malt. Please remember not to mill for too long, as over-
crushed malt is easy to agglomerate, which is not good for filtering.
8. The ideal crushed condition is to make
the malt being just right ruptured but the
outer wheat bran is as complete as
possible. Complete wheat bran plays an
important role in the filtration of wort in
later steps. The gap formed between the
wheat bran facilitates the filtration of the
wort and makes the wort clearer.
9. It’s time to put the milled malt into
the hot water (16L/75 ) when the℃
malt is ready. Just slowly pour the
malt into the hot water and stir to
avoid agglomerating. When all malt
is poured into the water, the
temperature will decrease. Once the
temperature decreases to 68 , put℃
on the lid and let it stay for one hour.
10. In fact, when the food factory produces beer, some enzymes such as
saccharification enzyme, β-amylase, and pullulanase will be added during the
saccharification process for better saccharification results.
Glycosylase, also known as glucoamylase, hydrolyzes alpha-1,4 glucoside bonds
from non-reducing ends to produce glucose. To add glucoamylase is a simple but
efficient way to produce clean and tasty beer.
Beta-amylase can help hydrolyze dextrin to maltose, the main ingredient of wort.
Pullulanase is capable of hydrolyzing linear oligosaccharides of branched α-D-1,4
glucosidic bonds in starch and dextrin. Since α-amylase and β-amylase could not
hydrolyze amylopectin, a certain amount of boundary dextrin still exists in the
wort. Usually, the enzyme can be used together with a saccharification enzyme
or a beta-amylase to produce maltose syrup.
12. During the waiting period, you need to prepare 12L hot water of 75 for washing the℃
malt residues.
One hour later, open the lid and filter out the wort. This is called the first wort, which
seems turbid. First of all, pouring the wort into a measuring cylinder and measured the
sugar content. Place the filtered wort into cold water. When the temperature
decreases to 20 , place the hydrometer in and record the corresponding value, which℃
is called the specific gravity of the first wort.
Then pour the turbid wort back into the barrel. Repeat the step of filtering until the
wort becomes clear. Finally, connect the silicone tube to the faucet and place the tube
in the bottom of the barrel before opening the faucet, which efficiently avoids the
oxidation of the wort.
When all of the wort run out of the barrel, you can start to wash the malt residues.
Slowly pour the washing water (prepared during saccharification) into the malt. The
movement should be as gentle as possible to avoid destroying the shape of the malt
residues.
13. Why You Need to Wash the Residues?
In the saccharification process, the ratio of malt to water required is between 1:2.5
and 1:5. We prepared 4 kg of malt and 16 L of water, which is exactly 1:4. There is no
way to dissolve all the maltose in 16L water. In addition, both the malt and the
saccharified water are in a static state and a lot of maltose remains in the malt. The
purpose of the washing is to dissolve the maltose remaining in the malt into the
water.
Use 6L water to wash the tank for the first time. The collected wort is called the
second wort. Another 6L of water is used for second washing. The collected wort is
called the third wort. After the washing process, the concentration of wort is getting
lower and lower, and maltose is thoroughly washed out.
19. Fermentation
It is ready for fermentation after cooling to at least 25 . First of all, disinfect℃
the equipment with 75% alcohol. Then pour the wort into the fermenter.
When filling the fermenter, try to make the wort splash in order to absorb
oxygen, which is useful for yeast breeding in the early stage.
Store it in the dark place and create a suitable ambient temperature
according to the characteristics of the yeast. In general, the main
fermentation will end in 7-10 days or so. The fermentation time of some
high-concentration wines can be extended to 2 weeks or even longer.
20. When producing beer in the factory, some enzymes will be added in the
fermentation process not only to guarantee better taste and quality but to
avoid the beer from being polluted as well. In the fermentation process, the
added enzyme preparations mainly include fungal amylase, α-acetolactate
decarboxylase, lysozyme and the like.
An important aspect of beer ripening is the flavor, and diacetyl is one of the
main indicators. α-acetolactate decarboxylase added can shorten the
fermentation time of beer, reduce diacetyl in the final beer, and improve the
flavor stability of the beer.
Lysozyme is a peptide polysaccharide hydrolase that catalyzes the hydrolyzation
of bacteria cell walls. A small amount of lysozyme added during the early stage
of fermentation can prolong the shelf life.
21. Bottling
Wash and dry the bottle at first and disinfect all equipment needed in this step.
Prepare 180g sugar and dissolve the sugar with boiled water (9g sugar per liter of
beer). Leave it completely cool. Pour the cooled sugar water and the beer into a
bucket. It is time to pour them into bottles when the two liquids are totally mixed
up. Let the bottles stand at room temperature for one week and then keep them
under 10 in the refrigerator. One or two weeks later, the home-made beer is℃
finished.