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International Journal of Green Energy Volume 12, 2015 - Issue 4
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Review Article

A Review of Quantification Practices for Plant-Derived Biomass Potential

Elias A. ChristoforouSchool of Engineering and Applied Sciences, Frederick University, Nicosia, Cyprus
&
Paris A. FokaidesSchool of Engineering and Applied Sciences, Frederick University, Nicosia, CyprusCorrespondence[email protected]
Pages 368-378 | Published online: 21 Nov 2014

References

  • Alfonso, D., C. Perpiñá, A. Pérez-Navarro, E. Peñalvo, C. Vargas, and R. Cárdenas. 2009. Methodology for the evaluation of distributed biomass resources and optimization of management and energy use. Biomass and Bioenergy 33:1070 –79.
  • Angelis-Dimakis, A., M. Biberacher, J. Dominguez, G. Fiorese, S. Gadocha, E. Gnansounou, G. Guariso, A. Kartalidis, L. Panichelli, I. Pinedo, and M. Robba. 2011. Methods and tools to evaluate the availability of renewable energy sources. Renewable and Sustainable Energy Reviews 15:1182 –1200.
  • Baehr, H. 2012. Thermodynamik: Grundlagen Und Technische Anwendungen. Springer, ISBN-13: 9783642241604.
  • Beagle, E. 1978. Rice-husk conversion to energy. Technical Report, Food and Agriculture Organization of the United Nations
  • Caputo, A., F. Scacchia, and P. Pelagagge. 2003. Disposal of by-products on olive oil industry: waste-to-energy solutions. Applied Thermal; Engineering 23:197 –214.
  • Celma, A., S. Rojas, and F. Lopez Rodriguez. 2007. Waste-to-energy possibilities for industrial olive and grape by-products in Extremadura. Biomass and Bioenergy 31:522 –34.
  • Ćosić, B., Z. Stanić, and N. Duić. 2011. Geographic distribution of economic potential of agricultural and forest biomass residual for energy use: Case study Croatia. Energy 36:2017 –28.
  • Demirbas, A., and F. Akdeniz. 2002. Fuel analyses of selected oilseed shells and supercritical fluid extraction in alkali medium. Energy Conversion and Management 43:1977 –84
  • Demirbas, A. 2009. Biohydrogen for future engine fuel demands. Springer, ISBN 978-1-84882-510-9.
  • Di Blasi, C., V. Tanzi, and M. Lancetta. 1997. A study on the production of agricultural residues in Italy. Biomass and Bioenergy 12:321 –31.
  • Environmental Energy Agency (EEA) (2007). Estimating the environmentally compatible bioenergy potential from agriculture. Technical report No 12/2007. ISSN 1725 –2237.
  • Ericsson, K., and L. Nilsson. 2006. Assessment of the potential biomass supply in Europe using a resource-focused approach. Biomass and Bioenergy 30:1 –15.
  • Esteban, L. S., and J. E. Carrasco. 2011. Biomass resources and costs: Assessment in different EU countries. Biomass and Bioenergy 35:S21 –S30.
  • European Community, 2009. Directive 2009/28 on the promotion of the use of energy from renewable sources., Article 2: Definitions.
  • Fang, M., L. Yang, G. Chen, Z. Shi, Z. Luo, and K. Cen. 2004. Experimental study on rice husk combustion in a circulating fluidized bed. Fuel Processing Technology 85:1273 –82.
  • FAO. 1991. Energy conservation in the mechanical forest industries. Technical Report, Food and Agriculture Organization of the United Nations, Rome.
  • Flamos, A., P. G. Georgallis, H. Doukas, and J. Psarras. 2011. Using biomass to achieve european union energy targets-A review of biomass status, potential, and supporting policies. International Journal of Green Energy 8:4, 411 –428.
  • Frear, C., B. Zhao, G. Fu, M. Richardson, and S. Chen. 2005. Biomass inventory and bioenergy assessment. An evaluation of organic materials resources for bioenergy production in Washington State. P. 123.
  • Gómez, A., J. Zubizarreta, M. Rodriguez, C. Dopazo, and N. Fueyo. 2010. An estimation of the energy potential of agro-industrial residues in Spain. Resources, Conservation and Recycling 54:972 –84.
  • Haykiri-Acma, H., and S. Yaman. 2007. Effect of co-combustion on the burnout of lignite/biomass blends: a Turkish case study. Waste Management 28:2077 –84.
  • Hoogwijk, M., A. Faaij, B. Eickhout, B. de Vries, and W. Turkenburg. 2005. Potential of biomass energy out to 2100, for four IPCC SRES land-use scenarios. Biomass and Bioenergy 29:225 –257.
  • Jekayinfa, S. O., and V. Scholz. 2009. Potential availability of energetically usable crop residues in Nigeria, Energy Sources, Part A: Recovery, Utilization and Environmental Effects 31(8):687 –97.
  • Karaj, S., T. Rehl, H. Leis, and J. Müller. 2010. Analysis of biomass residues potential for electrical energy generation in Albania. Renewable and Sustainable Energy Reviews 14:493 –9.
  • Klass, D. L. 1998. Waste biomass resource abundance, energy potential, and availability. Biomass for Renewable Energy Fuels and Chemicals 137 –58.
  • Klass, D. L. 2004. Biomass for renewable energy and fuels. Barrington, Illinois, United States: Entech International, Inc.
  • Kotro, M. H. T., D. Ajdinal, and L. Peri. 2006. Biomasa Pyjore si Burim Energjitik. Kurora e Gjelber
  • López-Rodríguez, F., C. P. Atanet, F. C. Blázquez, and A. R. Celma. 2009. Spatial assessment of the bioenergy potential of forest residues in the western province of Spain. Caceres. Biomass and Bioenergy 33:1358 –66.
  • Nikolau, A., M. Remrova, and L. Jeliazkov. 2003. Biomass availability in Europe. http://ec.europa.eu/energy/res/sectors/doc/bioenergy/cres_final_report_annex.pdf. Last cited: 02.05.2013
  • Offermann, R., T. Seidenberger, D. Thrän, M. Kaltschmitt, S. Zinoviev, and S. Miertus. 2011. Assessment of global bioenergy potentials. Mitigation and Adaptation Strategies for Global Change 16:103 –115.
  • Ozdemir, F., and I. Akinci. 2004. Physical and nutritional properties of four major commercial Turkish hazelnut varieties. Journal of Food Engineering 63(3):341 –7.
  • Panoutsou, C., J. Eleftheriadis, and A. Nikolaou. 2009. Biomass supply in EU27 from 2010 to 2030. Energy Policy 37:5675 –86.
  • Perera, K. K. C. K., P. G. Rathnasiri, S. A. S. Senarath, A. G. T. Sugathapala, S. C. Bhattacharya, and S. P. Abdul. 2005. Assessment of sustainable energy potential of non-plantation biomass resources in Sri Lanka. Biomass and Bioenergy 29:199 –213.
  • Perpiñá, S., D. Alfonso, A. Pérez-Navarro, E. Peñalvo, C. Vargas, and R. Cárdenas. 2009. Methodology based on Geographic Information Systems for biomass logistics and transport optimization. Renewable Energy 34:555 –65.
  • Rahman, M. M., and J. V. Paatero. 2012. A methodological approach for assessing potential of sustainable agricultural residues for electricity generation: South Asian perspective. Biomass and Bioenergy 47:153 –63.
  • Ramachandra, T. V., S. V. Krishna, and B. V. Shruthi. 2005. Decision support system to access regional biomass energy potential. International Journal of Green Energy 1(4):407 –28.
  • Schuck, S. 2006. Biomass as an energy source. International Journal of Environmental Studies 63(6):823 –835.
  • Singh, J., B. S. Panesar, and S. K. Sharma. 2008. Energy potential through agricultural biomass using geographical information system-A case study of Punjab. Biomass and Bioenergy 32:301 –7.
  • Smeets, E. M. W., and A. P. C. Faaij. 2007. Bioenergy potentials from forestry in 2050: An assessment of the drivers that determine the potentials. Climatic Change 81:353 –90.
  • Terrapon-Pfaff, J. C., M. Fishedick, and H. Monheim. 2012. Energy potentials and sustainability-the case of sisal residues in Tanzania. Energy for Sustainable Development 16:312 –19.
  • Voivontas, D., D. Assimacopoulos, and E. G. Koukios. 2001. Assessment of biomass potential for power production: a GIS based method. Biomass and Bioenergy 20:101 –12.
  • Xiong, Q., S.-C. Kong, and A. Passalacqua. 2013. Development of a generalized numerical framework for simulating biomass fast pyrolysis in fluidized-bed reactors. Chemical Engineering Science 99:305 –13.
  • Yanli, Y., Z. Peidong, Z. Wenlong, T. Yongsheng, Z. Yonghong, and W. Lisheng. 2010. Quantitative appraisal and potential analysis for primary biomass resources for energy utilization in China. Renewable and Sustainable Energy Reviews 14:3050 –58.

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