Environmental Engineering Reference
In-Depth Information
Reed T, Bryant B. Densified biomass: a new form of solid fuel. Golden, CO: Solar Energy
Research Institute (SERI), US Department of Energy Division of Solar Technology; 1978.
Reith JH, Deurwaarder EP, Hemmes K, Curvers APWM, Kamermans P, Brandenburg W,
Zeeman G. Bio-offshore: grootschalige teelt van zeewieren in combinatie met offshore
windparken in de Noordzee (in Dutch). Petten: ECN; 2005. Report nr ECN-C-05-008.
Roos CJ. Biomass Drying and Dewatering for Clean Heat and Power . Olympia (WA):
Northwest CHP Application Center; 2008.
Samson R, Mani S, Boddey R, Sokhansanj S, Quesada D, Urquiaga S, Reis V, Lem CH. The
potential of C4 perennial grasses for developing a global BIOHEAT industry. Crit Rev Plant
Sci 2005;24(5-6):461-495.
Schell DC, Hardwood C. Milling of lignocellulosic biomass: results of pilot-scale testing.
Appl Biochem Biotechnol 1994;45/46:159-168.
Sikanen L, Mutanen A, Röser D, Selkimäki M. Pellet markets in Finland and Europe: an
overview. Northern Periphery Programme 2007-2013. Joensuu: North Karelia University
of Applied Sciences; 2009.
Sims REH. The Brilliance of Bioenergy . London: James & James (Science Publishers)
Ltd; 2002.
Spliethoff H. Power Generation from Solid Fuels . Berlin/Heidelberg: Springer Verlag; 2010.
Svoboda K, Martinec J, Pohorely M, Baxter D. Integration of biomass drying with combustion/
gasification technologies and minimization of emissions of organic compounds. Chem Pap
2009;63(1):15-25.
Syvitski JPM. Principles, Methods and Application of Particle Size Analysis . New York:
Cambridge University Press; 2007.
Tumuluru JS, Wright CT, Hess JR, Kenney KL. A review of biomass densification systems to
develop uniform feedstock commodities for bioenergy application. Biofuels Bioprod
Biorefin J 2011;5:683-707.
Turn SQ, Kinoshita CM, Ishimura DM. Removal of inorganic constituents of biomass feed-
stocks by mechanical dewatering and leaching. Biomass Bioenergy 1997;12(4):241-252.
Ugwu C, Aoyagi H, Uchiyama H. Photobioreactors for mass cultivation of algae. Bioresource
Technology 2008;99:4021-4028.
Uslu A. Pre-treatment technologies and their effects on the international bioenergy supply
chain logistics. Techno-economic evaluation of torrefaction, fast pyrolysis and pelletisation
[MSc. Thesis]. Utrecht: Utrecht University; 2005.
Uslu A, Faaij APC, Bergman PCA. Pre-treatment technologies, and their effect on international
bioenergy supply chain logistics. Techno-economic evaluation of torrefaction, fast pyrolysis
and pelletisation. Energy 2008;33:1206-1223.
Van Loo S, Koppejan J, editors. Handbook of Biomass Combustion and Co-Firing . Prepared by
task 32 of the implementing agreement on bioenergy under the auspices of the international
energy agency. Enschede: Twente University Press; 2004.
Wihersaari M. VTT processes, evaluation of greenhouse gas emission risks from storage of
wood residue. Biomass Bioenergy 2005;28:444-453.
Zhang W, Liang M, Lu C. Morphological and structural development of hardwood cellulose
during mechanochemical pretreatment
in solid state through pan-milling. Cellulose
2007;14:447-456.
Search WWH ::




Custom Search