Agriculture Reference
In-Depth Information
[60]
Oka, S. N.& Anthony, E. J. (2003). “Fluidized Bed Combustion”, CRC Press, ISBN:
978-0-8247-4699-5
[61]
Permchart, W. &Kouprianov, V. I., (2004). “Emissions performance and combustion
efficiency of a conical fluidized bed combustor firing various biomass fuels”,
Bioresource Technology
,
92
, 83-91.
[62]
Pershing, D. W. & JOL Wendt, (1977). “Pulverized coal combustion: the influence of
flame temperature and coal composition on thermal and fuel NOx”, 16
th
Symposium on
combustion, Pittsburgh, PA,
The Combustion Institute
, 491-501.
[63]
Pohl, J. H.&Sarofim, J. F. (1976). “Fate of coal nitrogen during pyrolysis and
oxidation”, In: Proceedings of the Stationary Sources Combustion Symposium-volume
1, Fundamental Research, EPA-600/1-76-152a, Washington DC, USEPA.
[64]
Polack, J.A., Day, D.F.& Cho, Y.K. (1981). “Gasohol from sugar cane-stillage
deposition”, Audubon Sugar Institute, Louisiana State University, September.
[65]
Ralet, M.C., Thibault, J.F.& Della valle, G. (1991). “Solubilisation of sugar beet pulp
cell wall polysaccharides by extrusion cooking”,
Lebensmittel-Wissenschaft Und
Technologie
,
24
, 107-112
[66]
Raymant, A. P. (1989). “Sulphur capture by coal ash and freeboard processes during
fluidized bed combustion”, Proceedings of the 10
th
International Conference on FBC,
San Francisco,
1
, 345-352.
[67]
Reich, G.T. (1945). “Production of Carbon and Potash from Molasses Distillery
Stillage”,
Transactions of the American Institute of Chemical Engineers
, 233-251.
[68]
Ronger H. H., Zhou, D., Bradley, R., Crabbe, P., Edenhofer, O., Hare (Australia),
B.,Kuijpers, L. &Yamaguchi, M. (2007). “In climate Change 2007”: Mitigation,
contribution of Working group III to the Fourth assessment Report of the
Intergovernmental panel on climate change (B. Metz, O.R. Davidson, P.R. Bosch, R.
Dave, L.A. Meyer (eds)], Cambridge University Press, Cambridge, United Kingdom
and New york, NY, USA.
[69]
Ross, A. R., et al., (2002). “Measurement and prediction of the emission of pollutants
from the combustion of coal and biomass in a fixed bed furnace”,
Fuel
,
81
, 571-582.
[70]
Rouilly, A., Jorda, J. &Rigal, L. (2006a). “Thermo-mechanical processing of sugar beet
pulp. 1. Twin-screw extrusion process”,
Carbohydrate polymers
,
66
, 81-87
[71]
SACCKE (2009). “Combustion technology/Biomass and alternative fuels e.g., LCV
fuels like vinasse in the sugar industry, SAACKE Swirl Burner SSBS-LCG.
[72]
Sastry, C.A.&Mohanrao, G.J. (1964). “Treatment and disposal of distillery wastes”,
new developments of chemical industries relating to ethyl alcohol; Symposium on ethyl
alcohol production technique, New Delhi, India, 88-92; Publ. Noyes Development
Corp. N.Y., U.S.A.
[73]
Savolainen, K. (2003). “Co-firing of biomass in coal-fired utility boilers”,
Applied
Energy
,
74
, 369-381.
[74]
Seebaluck, V. et al. (2008). “Bioenergy for Sustainable Development and Global
Competitiveness: the case of Sugar Cane in Southern Africa”, A compilation of Results
from the Thematic Research Network: Cane Resources Network for Southern Africa
(CARENSA). Thematic Report 2, Industry, downloaded from the following website on
20/08/2011.
[75]
Sheehan, G.J. & Greenfield, P.F. (1980). “Utilization, Treatment and Disposal of
Distillery Wastewater”,
Water Research
,
14
, 257-277.
