acidogenic การใช้

• Acidogenic digestate provides moisture retention and organic content for soils.
• Acidogenic bacteria produce organic acids and more quickly grow and reproduce than methanogenic bacteria.
• Acidogenic digestate is fibrous and consists of structural plant matter including lignin and cellulose.
• Acidogenic digestate has high moisture retention properties.
• Remineralization occurs on a daily basis after an acidogenic challenge through the presence of saliva.
• Fermentation still occurs carried out by acidogenic yeast and bacteria, but is more subdued than other methods.
• The biological process of acidogenesis results in further breakdown of the remaining components by acidogenic ( fermentative ) bacteria.
• Acidogenic bacteria then convert the sugars and amino acids into carbon dioxide, hydrogen, ammonia, and organic acids.
• Usage of unutilized carbon sources present in acidogenic process for additional biogas production sustains the practical applicability of the process.
• The shift to an Acidogenic, aciduric, and cariogenic microbiological population develops and is maintained by frequent consumption of fermentable dietary carbohydrate.
• Persistence of this acidic condition encourages the proliferation of acidogenic and aciduric bacteria as a result of their ability to survive at a low-pH environment.
• When dental biofilms remain on tooth surfaces, along with frequent exposure to sugars, acidogenic bacteria ( members of dental biofilms ) will metabolize the sugars to organic acids.
• Fermentative / hydrolytic microorganisms hydrolyze complex organic polymers to monomers which are further converted to a mixture of lower-molecular-weight organic acids and alcohols by obligatory producing acidogenic bacteria.
• The yeast is acidogenic, and when grown on glucose rich media under aerobic conditions, produces large amounts of acetic acid . " Brettanomyces " is important to both the brewing and wine industries due to the sensory compounds it produces.
• Typical H 2 yields range from 1 to 2 mol of H 2 / mol of glucose, which results in 80-90 % of the initial acidogenic consortia to enhance H 2 production was also reported ( Venkata Mohan, " et al . ", 2007b ).
• Dr . Mohan reoriented his research since 2002 towards the development of novel and sustainable waste remediation technologies giving prime emphasis on production of clean bio-fuels viz . biohydrogen ( acidogenic fermentation ), bioelectricity ( microbial fuel cell ( MFC ) ), biodiesel and value added products viz ., bioplastics and fatty acids from waste.
• One way to utilize / recover the remaining organic matter in a usable form is to produce additional H 2 by terminal integration of photo-fermentative processes of H 2 production ( Venkata Mohan, " et al . " 2008e, Rai et al . 2012 ) and methane by integrating acidogenic processes to terminal methanogenic processes.