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Hansen, K.H., Angelidaki, I. and Ahring, B.K. (1998) Anaerobic digestion of swine
manure: Inhibition by ammonia. Water Research 32(1), 5-12.
Hinken, L., Urban, I., Haun, E., Urban, I., Weichgrebe, D. and Rosenwinkel, K.H.
(2008) The valuation of malnutrition in the mono-digestion of maize silage by
anaerobic batch tests. Water Science and Technology 58(7), 1453-1459.
IPCC (2006) IPCC Guidelines for National Greenhouse Gas Inventories. Prepared by
the National Greenhouse Gas Inventories Programme (Eggleston, H.S.,
Buendia, L. Miwa, K., Ngara, T. and Tanabe, K.) Hayama, Japan: IGES;
http://www.ipcc-nggip.iges.or.jp/pubilc/2006gl/index.html,
last
accessed 14
October 2012.
Jarvis, A., Nordberg, A., Jarlsvik, T., Mathisen, B. and Svensson, B.H. (1997)
Improvement of a grass-clover silage-fed biogas process by the addition of
cobalt. Biomass & Bioenergy 12(6), 453-460.
Kaparaju, P., Buendia, I., Ellegaard, L. and Angelidaki, I. (2008) Effects of mixing
on methane production during thermophilic anaerobic digestion of manure:
Lab-scale and pilot-scale studies. Bioresource Technology 99(11), 4919-4928.
Karakashev, D., Batstone, D.J., Trably, E. and Angelidaki, I. (2006). Acetate
oxidation is the dominant methanogenic pathway from acetate in the absence of
methanosaetaceae. Applied and Environmental Microbiology 72(7), 5138-5141.
Karim, K., Hoffmann, R., Klasson, K.T. and Al-Dahhan, M.H. (2005) Anaerobic
digestion of animal waste: Effect of mode of mixing. Water Research 39(15),
3597-3606.
Kavacik, B. and Topaloglu, B. (2010) Biogas production from co-digestion of a
mixture of cheese whey and dairy manure. Biomass and Bioenergy 34(9), 1321-
1329.
Kayhanian, M. and Rich, D. (1995) Pilot-scale high solids thermophilic anaerobic
digestion of municipal solid waste with an emphasis on nutrient requirements.
Biomass and Bioenergy 8(6), 433-444.
Kida, K., Shigematsu, T., Kijima, J., Numaguchi, M., Mochinaga, Y., Abe, N. and
Morimura, S. (2001) Influence of Ni
2+
and Co
2+
on methanogenic activity and
the amounts of coenzymes involved in methanogenesis. Journal of Bioscience
and Bioengineering 91(6), 590-595.
Kirby, T.W., Lancaster, J.R. and Friovich, I. (1981) Isolation and characterisation
of the iron containing super-oxide dimutase of methanobacteriumbryantii.
Archives of Biochemistry and Biophysics 210(1), 140-148.
Kongshaug, G. (1998) Energy Consumption and Greenhouse Gas Emissions in
Fertilizer Production. IFA Technical Conference. Marrakesh, Morocco:
International Fertilizer Industry Association.
Kurr, M., Huber, R., Ko¨ nig, H., Jannasch, H.W., Fricke, H., Trincone, A.,
Kristjansson, J.K. and Stetter, K.O. (1991) Methanopyruskandleri, gen. and sp.
nov. represents a novel group of hyperthermophilic methanogens, growing at
110
8
C. Archives of Microbiology 156(4), 239-247.
Lauerer, G., Kristjansson, J.K., Langworthy, T.A., Ko¨ nig, H. and Stetter, K.O.
(1986) Methanothermussociabilis
sp. nov., a second species within the
8
methanothermaceae growing at 97
C. Systematic and Applied Microbiology 8
(1-2), 100-105.
Lebuhn, M., Liu, F., Heuwinkel, H. and Gronauer, A. (2008) Biogas production
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