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Ethanol Production Process

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General process information option

Grain is delivered by truck or rail to the ethanol plant where it’s loaded in storage bins designed to hold enough grain to supply the plant for 7–10 days.
The grain is screened to remove debris and ground into course flour.
During the cook process, the starch in the flour is physically and chemically prepared for fermentation.

The milled grain is mixed with process water and an alpha-amylase enzyme is added. The slurry is heated to 180–190°F for 30–45 minutes to reduce viscosity.
The slurry goes through primary and secondary liquefaction processes in order to break down the starch into short chain dextrins. Glucoamylase is added as the mixture is pumped into the fermentation tanks.

Once inside the fermentation tanks, the mixture is referred to as mash. The glucoamylase enzyme breaks down the dextrins to form simple sugars. Yeast is added to convert the sugar to ethanol and carbon dioxide. The mash is then allowed to ferment for 50–60 hours, resulting in a mixture that contains about 15% ethanol as well as the solids from the grain and added yeast.

The fermented mash is pumped into a multi-column distillation system where additional heat is added.
By the time the product stream is ready to leave the distillation columns, it contains about 95% ethanol by volume (190-proof).
The 190-proof ethanol still contains about 5% water. It’s passed through a molecular sieve to physically separate the remaining water from the ethanol based on the different sizes of the molecules. This step produces 200-proof anhydrous (waterless) ethanol.

Before the ethanol is sent to storage tanks, a small amount of denaturant is added, making it unfit for human consumption. Most ethanol plants’ storage tanks are sized to allow storage of 7–10 days’ production capacity.

Co-Product Processing

During the ethanol production process, two valuable co-products are created: carbon dioxide and distillers grains.
The stillage from the bottom of the distillation tanks contains solids from the grain and added yeast as well as liquid from the water added during the process. It’s sent to centrifuges for separation into thin stillage (a liquid with 5–10% solids) and wet distillers grain.
It is sent through a multiple-effect evaporation system where it is concentrated into syrup containing 25–50% solids. This syrup, which is high in protein and fat content, is then mixed back in with the wet distillers grain (WDG).
With the added syrup, the WDG still contains most of the nutritive value of the original feedstock plus the added yeast, so it makes an excellent cattle ration for local feedlots and dairies. After the addition of the syrup, it’s conveyed to a wet cake pad, where it is loaded for transport.
WDG must be used soon after it’s produced because it spoils easily. So, it’s often sent through a drying system to remove moisture and extend its shelf life. This dried distillers grain (DDG) is commonly used as a high-protein ingredient in cattle, swine, poultry, and fish diets.

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