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by Samir S. Sofer,Oskar R. Zaborsky

Download Biomass Conversion Processes for Energy and Fuels eBook
ISBN:
0306406632
Author:
Samir S. Sofer,Oskar R. Zaborsky
Category:
Engineering
Language:
English
Publisher:
Springer; 1 edition (December 31, 1981)
Pages:
436 pages
EPUB book:
1241 kb
FB2 book:
1117 kb
DJVU:
1836 kb
Other formats
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Rating:
4.3
Votes:
462


Authors: Sofer, Samir . Zaborsky, Oskar . Biomass has been used since antiquity for energy and material needs. In is still one of the most sought-after energy sources in most of the fact, firewood world.

Biomass has been used since antiquity for energy and material needs. Furthermore, wood was still a dominant energy source in the U. S. only a hundred years ago (equal with coal). Currently, biomass contributes about 15 2 quadrillion Btu (l quad 10 Btu) of energy to our total energy consump­ tion of about 78 quad. Two quad may not seem large when compared to the contribution made by petroleum (38 quad) or natural gas (20 quad), but bio­ mass is nearly comparable to nuclear energy (2. 7 quad).

Sofer, Samir S;Zaborsky, Oskar R. Publication date. Sofer, Samir S; Zaborsky, Oskar R. Boxid. Books for People with Print Disabilities. Internet Archive Books.

Автор: Samir S. Sofer; Oskar R. Zaborsky Название: Biomass . This book highlights the processes of biomass thermochemical conversion, covering topics from combustion and gasification, to pyrolysis and liquefaction

This book highlights the processes of biomass thermochemical conversion, covering topics from combustion and gasification, to pyrolysis and liquefaction. Heat, power, biofuels and green chemicals can all be produced by these thermochemical processes.

Energy from biomass, wind energy, solar energy, and geothermal energy are some of the most promising .

Energy from biomass, wind energy, solar energy, and geothermal energy are some of the most promising alternatives which ar. .The book treats biomass sources, promising processes for the conversion of biomass into energy and fuels, and the technical and economic considerations in biomass conversion.

Samir S. Sofer, Oskar R. Zaborsky. Sources of biomas. More). Immobilization of protocatechuate 3,4 -dioxygenase with activated agarose.

Lee JM (1988) Computer simulation in ethanol fermentation. Biotechnol Bioeng 27:280 – 285 Lynd LR (1996) Overview and evaluation of fuel ethanol production from cellulosic biomass: technology, economics, the environ- ment, and policy. In: Fofer SS, Zaborsky OR (eds) Biomass conversion processes for energy and fuels. Plenum, New York Leticia P, Miguel C, Humberto G, Jaime AJ (1997) Fermentation parameters influencing higher alcohol production in the tequila process. Biotechnol Lett 19(1):45 – 47 Lindeman LR, Rocchiccioli C (1979) Ethanol in Brazil; brief summary of the sate of the industry in 1977. Annu Rev Energy Environ 21:403 – 465 639.

Biomass Conversion Processes for Energy and Fuels. Tell us if something is incorrect. We aim to show you accurate product information. Manufacturers, suppliers and others provide what you see here, and we have not verified it. See our disclaimer. Biomass Conversion Processes for Energy and Fuels. Springer Us, Springer.

Biomass energy processes can be better appreciated once you . The processes for converting biomass into energy are numerous.

Biomass energy processes can be better appreciated once you understand what biomass energy is and the goals in creating i. Switchgrass is the most common material used for this process. Switchgrass is a perennial summer grass that's a natural plant found in the American Great Plains region and in some areas of the South.

Biomass Conversion: Processes for Energy and Fuels, 1981). Соуфер . Под редакцией . оуфера, . аборски. Перевод с английского . Category: Сельское, лесное, охотничье и рыбное хозяйство. 7 Mb. Biomass for energy, industry and environment: 6th EC conference;. G. Grassi, A. Collina, H. Zibetta.

Countless pages have been written on alternative energy sources since the fall of 1973 when our dependence on fossil petroleum resources became a grim reality. One such alternative is the use of biomass for producing energy and liquid and gaseous fuels. The term "biomass" generally refers to renewable organic matter generated by plants through photosynthesis. Thus trees, agri­ cultural crops, and aquatic plants are prime sources of biomass. Furthermore, as these sources of biomass are harvested and processed into commercial prod­ ucts, residues and wastes are generated. These, together with municipal solid wastes, not only add to the total organic raw material base that can be utilized for energy purposes but they also need to be removed for environmental reasons. Biomass has been used since antiquity for energy and material needs. In is still one of the most sought-after energy sources in most of the fact, firewood world. Furthermore, wood was still a dominant energy source in the U. S. only a hundred years ago (equal with coal). Currently, biomass contributes about 15 2 quadrillion Btu (l quad = 10 Btu) of energy to our total energy consump­ tion of about 78 quad. Two quad may not seem large when compared to the contribution made by petroleum (38 quad) or natural gas (20 quad), but bio­ mass is nearly comparable to nuclear energy (2. 7 quad).