Buch, Englisch, Band 64, 410 Seiten, Print PDF, Format (B × H): 152 mm x 229 mm, Gewicht: 717 g
Buch, Englisch, Band 64, 410 Seiten, Print PDF, Format (B × H): 152 mm x 229 mm, Gewicht: 717 g
Reihe: Burleigh Dodds Series in Agricultural Science
ISBN: 978-1-78676-252-8
Verlag: Burleigh Dodds Science Publishing Ltd
There is a need to develop next-generation bioenergy systems that exhibit net carbon capture. This collection reviews advances in producing next-generation biofuels from plant materials. These address climate change by fixing carbon in co-products.
Part 1 discusses key technologies to achieve this goal such as biomass gasification, fast pyrolysis and torrefaction. Chapters review advances in technology, applications and commercial development. Part 2 assesses advances in production of biofuels from crops such as jatropha, oilseeds (such as canola and rapeseed), Miscanthus, switchgrass and willow, as well as the sustainable use of seaweed for biofuel.
With its international range of expert authors, Achieving carbon-negative bioenergy systems from plant materials will be a standard reference for researchers in agricultural and environmental science focussing on plant-based biofuel technologies, as well as government and other agencies supporting this sector.
Zielgruppe
Researchers in agricultural, environmental and engineering science focussing on biofuel technologies; government and other agencies supporting the renewable energy sector
Autoren/Hrsg.
Fachgebiete
- Technische Wissenschaften Energietechnik | Elektrotechnik Biogasanlagen, Energie aus Biomasse
- Technische Wissenschaften Verfahrenstechnik | Chemieingenieurwesen | Biotechnologie Biotechnologie Industrielle Biotechnologie
- Naturwissenschaften Agrarwissenschaften Agrarwissenschaften Nachhaltige Landwirtschaft
Weitere Infos & Material
Part 1 Technologies
1.Biomass gasification for bioenergy: Maria Puig-Arnavat, Technical University of Denmark, Denmark; Tobias Pape Thomsen, Roskilde University, Denmark; and Zsuzsa Sárossy, Rasmus Østergaard Gadsbøll, Lasse Røngaard Clausen and Jesper Ahrenfeldt, Technical University of Denmark, Denmark;
2.Fast pyrolysis for biofuel production: David Shonnard, Olumide Winjobi and Daniel Kulas, Michigan Technological University, USA;
3.Producing biofuels with torrefaction: Donald R. Fosnacht, Natural Resources Research Institute – University of Minnesota, USA;
Part 2 Materials
4.Production of biodiesel from renewable sources: Dan Zeng, Daidi Fan, Le Wu and Yuqi Wang, Northwest University, China;
5.Production of biodiesel from oilseeds: Jatropha curcas: Rahmath Abdulla, Universiti Malaysia Sabah, Malaysia;
6.Production of biodiesel from oilseeds: canola/rapeseed: B. Brian He and Dev Shrestha, University of Idaho, USA;
7.Sustainable use of Miscanthus for biofuel: Paul Robson, University of Aberystwyth, UK; Astley Hastings, University of Aberdeen, UK; John Clifton-Brown, University of Aberystwyth, UK; and Jon McCalmont, University of Exeter, UK;
8.Sustainable use of switchgrass for biofuel: John Fike, Virginia Tech, USA; Vance Owens, South Dakota State University, USA; David Parrish, Virginia Tech, USA; and Rana Genedy, Cairo, Egypt;
9.Sustainable production of willow for biofuel use: M. Weih, P.-A. Hansson, J. A. Ohlsson, M. Sandgren, A. Schnürer and A.-C. Rönnberg- Wästljung, Swedish University of Agricultural Sciences, Sweden;
10.Sustainable use of seaweed for biofuel: Jay Liu, Boris Brigljevic and Peyman Fasahati, Pukyong National University, South Korea;
