Environmental Engineering Reference
In-Depth Information
key challenges that need to be supported by internationally integrated
research programs and favorable policy frames. In the industrial sector, the
utilization of AD technologies for energy recovery from by-products and
wastes will increase in the future with the aim of reduced energy costs,
cleaner technologies and sustainable waste management. There is still
significant potential to expand the use of biomass for biogas production
because of the large volumes of unused residues and wastes. In addition, the
expected future development of the sector of biofuels and biorefineries will
produce large amounts of by-products, for which biogas technologies are
valuable options.
2.6
Sources of further information and advice
Complementary information about biogas feedstocks and their character-
istics, technical parameters and analyzing methodologies can be found in
Chapter 3. Further information can also be found from the following
sources.
Bischofsberger W, Dichtl N, Rosenwinkel K H, Seyfried C F and Bo¨ hnke B (2005)
Anaerobtechnik. Springer, Berlin, Germany.
Braun R (1982) Biogas - Methanga¨rung organischer Abfallstoffe. Springer, Berlin,
Germany.
Braun R (2007) Anaerobic digestion: a multifaceted process for energy,
environmental management and rural development. In: Improvement of Crop
Plants for Industrial End Uses. Ranalli P (ed.), Springer, Dordrecht, The
Netherlands.
Hartmann H, Møller H B and Ahring B K (2004) Efficiency of the anaerobic
treatment of the organic fraction of municipal solid waste: collection and pre-
treatment, Waste Management & Research, 22, 35-41.
Hjorth M, Granitz K, Adamsen A P S and Moller H B (2011) Extrusion as a
pretreatment to increase biogas production, Bioresource Technology, 102, 4989-
4995.
Møller H B, Lund I. and Sommer S G (2000) Solid-liquid separation of livestock
slurry: efficiency and cost, Bioresource Technology, 74, 223-229.
Nakakubo R, Moller H B and Nielsen A M (2008) Ammonia inhibition of
methanogenesis and identification of process indicators during anaerobic
digestion, Environmental Engineering Science, 25, 1487-1496.
Raju S C, Ward A J, Nielsen L and Møller H B (2011) Comparison of near infra-red
spectroscopy, neutral detergent fibre assay and in-vitro organic matter
digestibility assay for rapid determination of the biochemical methane
potential of meadow grasses, Bioresource Technology, 102, 7835-7839.
Renewable Fuels Association http://www.ethanolrfa.org.
Speece R E (1996) Anaerobic Biotechnology for Industrial Wastewaters. Archae Press,
Nashville, Tennessee, USA.
Triolo Jin M, Sommer SG, Møller H B, Weisbjerg M and Jiang Y (2011) A new
algorithm to characterize biodegradability of biomass during anaerobic
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