- Abedinzadegan Abdi, M., Mahdyarfar, M., Rashidi, A.M., and Ahmadpour, A., 2002. Preparation of activated carbon by chemical activation from walnut shell, Engineering university journal, 1: 21-28.
- Abdul Khalil, H. P. S., Jawaid, M., Firoozian, P., Rashid, U., Islam, A., and Md. Akil, H., 2013. Activated Carbon from Various Agricultural Wastes by Chemical Activation with KOH: Preparation and Characterization, Journal of Biobased Materials and Bioenergy, 7: 1–7.
- Ahmad Khan, N., 2004. Elimination of Heavy Metals from Wastewater Using Agricultural Wastes as Adsorbents. Review paper for Malaysian Journal of Science, 23(2): 43 – 51.
- Bauen, A., Woods, J., Hailes, R., 2004. Bioelectricity vision: Achieving 15% of electricity from biomass in OECD countries by 2020, WWF, Brussels, Belgium, 28p.
- Bioenergy Association of New Zealand, 2010. Wood Fuel Classification Guidelines, Version 5, New Zealand, 31p.
- Boundy, B., Diegel, S. W., Wright, L., Davis, S. C., 2011. Biomass Energy Data Book, Office of the biomass program energy efficiency and renewable energy U.S. department of energy, Roltek, Inc., USA, 254 p.,
http://cta.ornl.gov/bedb.
- Cai, G.Y., 1992. Activated Carbon Prodn. By Making Use of Residue of Furfural and the Recovery of Sulfur Dioxide in Flue Gas China, CNI066255 (A), 3: 11-18.
- Demirbas, A., 2010. Biorefineries for biomass upgrading facility, Speringer-verlag, Germany, 244 p.
- Dorani, A., 2011. Nano porous activated carbon from waste bark of walnuts, Agricultural new technology report news, 5: 24-29.
- Faaij, A., Schlamadinger, B., Solantausta Y. and Wagener M., 2002. Large Scale International Bio-Energy Trade. In: Proceeding of 12th European Conf. and Technology Exhibition on Biomass for Energy, Industry and Climate Change Protection, 17-21 June, Amsterdam.
- (Francescato, V., Antonini, E., and Bergomi, L.Z.,2008.Wood fuels handbook, Italian agroforestry energy association, 83 p.
- Goodarzi, M., Jafarzadeh, N, A., Haghighifard, A., takdastan, A., and hamidavi, M., 2012. Classification and organization of Dabal Khazaei company residue from production. In: Proceeding of sixth national and the first international waste management, 9 p.
- Jenkins, B.M., Baxter, L.L., Miles, Jr., T.R., C, Miles, T.R., 1998. Combustion properties of biomass, Fuel Processing Technology 54: 17–46.
- Kole, C., Joshi, C.P., and Shonnard, D.R. 2012. Handbook of bioenergy crop plants, CRC Press, Taylor & Francis Group, 825 p.
- Krishnan, K.N. and Anirudhan, T.S., 2003. Removal of cadmium (II) from aqueous solutions by steamactivated sulphurised carbon prepared from sugar-cane bagasse pith: Kinetics and equilibrium studies, Water SA. 29(2): 147-156.
- Lashgarblooki, M.J. and Lotfi Neiestanak, A.A., 2012. Evaluation of different methods for destroying of municipal solid waste of Sary: Sanitary landfill and waste burning. In: Proceeding of sixth national and the first international waste management, 9 p.
- Li, G.B., and Yang, M.P., 2004. Study on the Production of Granular Activated Carbon from Furfural residue, Coal chemical industry, 3: 36-38.
- Lorente Fernandez M.J., and Garcia Garrasco J.E., 2005. Comparing methods for predicting the sintering of biomass ash in combustion, Fuel, 84: 1893-1900.
-
Mann, A. and
O'Hara, I.M., 2012. Predicting the effects of bagasse depithing operations on boiler combustion performance, Proceedings of the Australian Society of Sugar Cane Technologists, Australian Society of Sugar Cane Technologists Ltd, 12p.
- Najafi Anari, S., Zakiee, J. Ghader, A., 2008. Evaluation of bagasse ash as a supplementary material for concrete, Third international congress of recycling and the use of renewable sources of organic agriculture, 14-15 May, 7p.
- New energies organization (SANA), 2013. Power ministration, Latest status of installed capacities.
http://www.suna.org.ir.
- Roy, P. 2005. Characterization of biomass as a feedstock of alternate fuels, University of Guelph, Ontario, Canada.
- Rosendah, 2013. Biomass combustion science, technology and engineering, Woodhead Publishing Series in Energy: Number 40, 315 p.
- Sanaei Moghadam, Aghel, H, Aghkhani, M.H., and Khodaparast, M.H., 2012. Investigation on different factors for biogas production improvement in biogas sites. In: Proceeding of sixth national and the first international waste management, 12 p.
Sugumaran, P. and Seshadri, S., 2009. Evaluation of selected biomass for charcoal production, Journal of scientific & Industrial Research, 68(8): 719-723.
- Sunjuan, R., Anzaldo, J., Vargas, J., and Patt, R., 2001. Morphological and chemical composition of pith and fibers from Mexican sugarcane bagasse, Springer-Verlag, Holz als Roh. Und Werkstoff, 59: 447-450.
- Toscano, G., Corinaldesi, F., 2010. Ash fusibility characteristics of some biomass feedstocks and examination of the effects of inorganic additives, J. of Ag. Eng. - Riv. di Ing. Agr., 2: 13-19.
- Tseng, L.Y., Wu, S.C., Lin, H.C., 2007. Mutagenic Evaluation and Physical Absorption Properties of Corn Cob, Bagasse Pith and Mushroom Stalk Activated Carbon, J.Agric.For. (NCYU), 2: 17-24.
- Werklin, J., Skrifvars, B.J., Hupa M., 2005. Ash-forming elements in four Scandinavian wood species, Part, Summer harvest, Biomass and Bioenergy, 29: 451-456.
)