Bioenergy

Advances in Bioenergy: The Sustainability Challenge  eBooks & eLearning

Posted by nebulae at April 10, 2017
Advances in Bioenergy: The Sustainability Challenge

Peter Lund, John A. Byrne, Goeran Berndes, Iacovos Vasalos, "Advances in Bioenergy: The Sustainability Challenge"
2016 | ISBN: 1118957873 | English | 560 pages | True PDF | 18 MB

Biofuels and Bioenergy  eBooks & eLearning

Posted by nebulae at March 16, 2017
Biofuels and Bioenergy

John Love, John A. Bryant, "Biofuels and Bioenergy"
English | ISBN: 1118350561 | 2017 | 328 pages | PDF | 5 MB

Bioenergy: Opportunities and Challenges  eBooks & eLearning

Posted by fdts at Dec. 16, 2016
Bioenergy: Opportunities and Challenges

Bioenergy: Opportunities and Challenges
by R. Navanietha Krishnaraj, Jong-Sung Yu
English | 2015 | ISBN: 1771881097 | 382 pages | PDF | 5.93 MB

Bioenergy : Principles and Applications  eBooks & eLearning

Posted by readerXXI at Oct. 25, 2016
Bioenergy : Principles and Applications

Bioenergy : Principles and Applications
by Yebo Li and Samir Kumar Khanal
English | 2016 | ISBN: 1118568311 | 598 Pages | True PDF | 29,5 MB

The search for altenative, renewable sources of fuel and energy from plants, algae, and waste materials has catalyzed in recent years. Bioenergy: Principles and Practices provides an invaluable introduction to the fundamentals of bioenergy feedstocks, processing, and industry.

Handbook of Bioenergy: Bioenergy Supply Chain - Models and Applications  eBooks & eLearning

Posted by nebulae at Dec. 6, 2015
Handbook of Bioenergy: Bioenergy Supply Chain - Models and Applications

Sandra D. Eksioglu, Steffen Rebennack, Panos Pardalos, "Handbook of Bioenergy: Bioenergy Supply Chain - Models and Applications"
English | ISBN: 3319200917 | 2015 | 343 pages | PDF | 8 MB

Bioenergy Feedstocks: Breeding and Genetics (Repost)  eBooks & eLearning

Posted by nebulae at Nov. 2, 2015
Bioenergy Feedstocks: Breeding and Genetics (Repost)

Malay C. Saha, "Bioenergy Feedstocks: Breeding and Genetics"
English | ISBN: 0470960337 | 2013 | PDF | 295 pages | 5.9 MB

Biocatalysis and Bioenergy by C. T. Hou [Repost]  eBooks & eLearning

Posted by tanas.olesya at Jan. 25, 2015
Biocatalysis and Bioenergy by C. T. Hou [Repost]

Biocatalysis and Bioenergy by C. T. Hou
English | Aug 11, 2008 | ISBN: 0470134046 | 604 Pages | PDF | 4 MB

An up-to-date overview of diverse findings and accomplishments in biocatalysis and bioenergy With the high price of petroleum and researchers worldwide seeking new means of producing energy, this comprehensive book on biocatalysis for bioenergy and biofuel applications is very timely.
International Bioenergy Trade: History, status & outlook on securing sustainable bioenergy supply, demand and markets [Repost]

Martin Junginger, Chun Sheng Goh, André Faaij - International Bioenergy Trade: History, status & outlook on securing sustainable bioenergy supply, demand and markets
Published: 2013-10-28 | ISBN: 9400769814, 9400769830 | PDF | 233 pages | 5 MB

Future Bioenergy and Sustainable Land Use  eBooks & eLearning

Posted by tot167 at Feb. 9, 2011
Future Bioenergy and Sustainable Land Use

German Advisory Council on Global Change, "Future Bioenergy and Sustainable Land Use"
Earthscan Publications Ltd. | 2010 | ISBN: 1844078418 | 390 pages | PDF | 14,9 MB

Bioenergy Project Development & Biomass Supply- Good Practice Guidelines  eBooks & eLearning

Posted by lenami at July 23, 2009
Bioenergy Project Development & Biomass Supply- Good Practice Guidelines

Bioenergy Project Development & Biomass Supply- Good Practice Guidelines
Publisher: International Energy Agency | ISBN: N/A | edition 2007 | PDF | 66 pages | 4 mb

veloping a bioenergy project is no easy task. Similar planning issues exist whether the bioenergy plant is a small, on-farm heat plant, a district combined heat and power plant, a utility-owned electricity generating plant, or a large scale commercial biofuels plant.
- The biomass feedstock needs to be available over the life of the plant and produced in a manner that is deemed to be sustainable as well as renewable. It can be in solid or liquid form.
- The quality and moisture content of the feedstock need to be assessed on delivery to ensure efÞ cient conversion and fair means of payment.
- Where the biomass is to be imported, certiÞ cation of its source and the identiÞ cation of low-cost transport methods, in both Þ nancial and energy terms, need consideration.
- Selection of the energy conversion technology and size of plant should be based on the nature of the biomass, the volume available, the reliability and the risk of failure from immature technologies.
- Markets for the bioenergy carriers produced (as heat, electricity, gaseous fuels, liquid biofuels, or solid fuels such as pellets) need to be assessed and purchase agreements sought where feasible.
- Design and construction of the bioenergy conversion plant, choosing its location, the proximity to power, gas and water supplies, and obtaining the necessary resource and planning consents, can be major barriers requiring solution by the project developer.