Dovoy Grain Processing
About Dovoy Grain-Processing
Cultivating clean energy. One grain at a time.
Enzymes act as catalysts, they break down complex compounds like starch, protein and fiber into simpler components. Dovoy provides a range of solutions for biofuel and ethanol processing that convert starches into dextrins, dextrins into fermentable sugars and fermentable sugars into final product.
Dovoy enzymatic solutions are used in distilleries and biofuel production plants as they maximize yield, increase overall productivity, simplify procedures, and lead to a reduction in operational costs.
Dovoy Grain Processing provides innovative, tailored enzymatic and yeast-based solutions that meet the changing demands of the grain and starch processing sector. Our offerings support critical processes such as liquefaction, saccharification and fermentation across grain and starch processing, while providing improved efficiency, yield and product quality By continuously investing in advanced technologies and strict quality control measures, we provide high-quality solutions that consistently yield results to our customers, allowing them to maintain operational efficiency and process stability.
Ethanol Production- Complex carbohydrates and lipids are effectively broken down by Dovoy’s set of enzymes that lead to a reduction in energy consumption, maximization of output and improved environmental sustainability.
Liquefaction
Our enzymes portfolio provides an endo-amylase enzyme that randomly hydrolyzes alpha-1 and 4-glucosidic bonds, resulting in improved process efficiency, optimized slurring consistency and an increase in savings.
Saccharification
We offer various glucoamylases that catalyze the release of successive glucose units from non-reducing ends of dextrin and oligosaccharides chain by hydrolyzing both linear (1, 4-+-D) and branched (1, 6-+-D) glucosidic linkages.
Anti-Biotic
Dovoy offers various blends of enzymes that help to control the undesirable contamination and propagation of bacterial cells to arrest VFA levels.
Starch-Solutions Our portfolio of enzymes consists of alpha-amylase and glucoamylases that act on complex starch molecules and convert them into dextrins and ultimately to sugar, leading to faster reactions, higher yield and significant cost savings.
Liquefaction
We offer starch-hydrolyzing alpha-amylase enzymes that reduce the viscosity of gelatinized starch by producing soluble dextrins and oligosaccharides from starch molecules.
Saccharification
Our glucoamylase enzymes will efficiently break down dextrin into fermentable sugars which will improve fermentation efficiency and maximize production yield.
Corn Separation
Our portfolio of products enhances corn separation, leading to an increase in corn gluten meal and starch yield, faster processing and reduction in energy costs and CO2 emissions
Starch Specialties
We offer a range of enzymes that will act as processing aids to modify starches and improve process filtration rate as per the required application.
Starch Specialties
We offer a range of enzymes that will act as processing aids to modify starches and improve process filtration rate as per the required application.
They enhance microbial metabolism by supplying essential nutrients, growth factors and catalytic compounds, thereby accelerating substrate conversion, improving yield, and ensuring consistent product quality
Urea replacer
Our blends of bio-nutrients replace all nutrients and Nitrogen sources like Urea, DAP, Liquor ammonia etc., for a rapid and complete fermentation, which will lead to increased fermentation rate, higher yield and profitability.
Alcohol Active Dry Yeast
We offer various active dry yeast for ethanol fermentations based on molasses and grain feedstocks. It contains a selected strain of Saccharomyces cerevisiae yeast in a highly concentrated and stable form selected to give lower residual sugars and higher alcohols.
Foam Suppressant
Our range of polyether and silicone based defoamers are used in the fermentation process to suppress the foam and enhnace the reaction, which effectively leads to higher ethanol yield.
