By Pogaku Ravindra
This booklet offers an in depth assessment of the most recent study in environmentally benign built-in bioprocess know-how. The innovative bioprocess applied sciences highlighted within the publication comprise bioenergy from lignocellulose fabrics, biomass gasification, ethanol, butanol, biodiesel from agro waste, enzymatic bioprocess expertise, foodstuff fermentation with starter cultures, and highbrow estate rights for bioprocesses.
This ebook extra addresses area of interest applied sciences in bioprocesses that broadens readers’ knowing of downstream processing for bio items and membrane know-how for bioprocesses. the most recent advancements in biomass and bioenergy know-how are reviewed exhaustively, together with IPR rights, nanotechnology for bioenergy items, biomass gasification, and biomass combustion.
This is a perfect ebook for scientists, engineers, scholars, in addition to contributors of and policy-makers.
This publication also:
Addresses state of the art applied sciences in bioprocesses
Broadens readers’ figuring out of metabolic engineering, downstream processing for bioproducts, and membrane expertise for bioprocesses
studies exhaustively the newest advancements in biomass and bioenergy expertise, together with nanotechnology for bioenergy items, biomass gasification, biomass combustion, and extra
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Additional resources for Advances in Bioprocess Technology
Heating rate has a signiﬁcant effect on ash formation. The effect of heating rate will be different for included and excluded minerals, porous vs. non-porous structures and small vs. large-sized particles. Excluded minerals have more speciﬁc heat capacity and will therefore heat up slowly compared to included mineral matter or purely organic particles. Highly porous char that undergoes much more extensive devolatilization during heating will burn out at an earlier stage compared to less porous (solid) char particles; even though they burn at a similar “per carbon site” rate (Wall et al.
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The adaptation of Acidothiobacillus ferrooxidans for the treatment of nickel-iron sulﬁde concentrates. Minerals Engineering, 15, 759–808. Mehta, K. , Pandey, B. , & Premchand. (1999). Bio-assisted leaching of copper, nickel and cobalt from converter slag. Materials Transactions, JIM, 40(3), 214–221. Mehta, K. , Pandey, B. , & Premchand. (1997). Bioleaching of copper, nickel and cobalt from copper converter slag by Acidothiobacillus ferrooxidans. NML Technical Journal, 39, 59–70. Natarajan, K. , & Iwasaki, I.
Advances in Bioprocess Technology by Pogaku Ravindra