Название: Renewable Energy for Sustainable Growth Assessment
Автор: Группа авторов
Издательство: John Wiley & Sons Limited
Жанр: Физика
isbn: 9781119785446
isbn:
125. Wichert, B. PV/diesel hybrid energy systems for remote area power generations-a review of current practices and future developments. Renewable and Sustainable Energy Reviews. 1997. 1-3; 209-228.
126. M.A. Elhadidy, S.M. Shaahid. Decentralized/stand-alone hybrid wind–diesel power systems to meet residential loads of hot coastal regions. Energy Conversion and Management. 2005. 46; 2501–2513.
127. D. Saheb-Koussa, M. Haddadi, M. Belhame. Economic and technical study of a hybrid system (wind–photovoltaic–diesel) for rural electrification in Algeria. Applied Energy. 2009. 86; 1024–1030.
128. Rachid Belfkira, Lu Zhang, Georges Barakat. Optimal sizing study of hybrid wind/PV/diesel power generation unit. Solar Energy. 2011. 85; 100–110.
129. R. W. Wies, R. A. Johnson, A. N. Agrawal, T. J. Chubb. Economic analysis and environmental impacts of a PV with diesel-battery system for remote villages. IEEE Power. Engineering Society General Meeting. 2004. 2; 1898 -1905.
130. Pedro Rosa, Wellington Lemos, Alexandre Pereira, Renato Barros and Everaldo Feitosa. Problems of planning hybrid wind-diesel power systems. IEEE Transmission & Distribution Conference, Latin America. 2004. 617-622.
131. M.A. Elhadidy. Performance evaluation of hybrid (wind/solar/diesel) power systems. Renewable Energy. 2002. 26; 401–413.
132. Richard W. Wies, Ron A. Johnson, Ashish N. Agrawal, and Tyler J. Chubb., “Simulink model for economic analysis and environmental impacts of a PV with diesel-battery system for remote villages, IEEE Transactions on power systems. 2005. 20(2); 692.
133. Raquel S. Garciaa, Daniel Weisser. A wind–diesel system with hydrogen storage. Joint optimization of design and dispatch. Renewable Energy. 2006. 31; 2296–2320.
134. Shaahid, S.M. and Elhadidy, M.A. Technical and economic assessment of grid-independent hybrid photovoltaic/diesel/battery power systems for commercial loads in desert environments. Renewable and Sustainable Energy Reviews, 2007. 11-8; 1794-1810.
135. J.K. Kaldellis, K.A. Kavadias. Cost–benefit analysis of remote hybrid wind–diesel power stations. Case study Aegean sea islands, Energy Policy. 2007, 35; 1525-1538.
136. S. Rehmana, I.M. El-Amin, F. Ahmad, S.M. Shaahid, A.M. AlShehri, J.M. Bakhashwain, A. Shash. Feasibility study of hybrid retrofits to an isolated off-grid diesel power plant. Renewable and Sustainable Energy Reviews. 2007. 11; 635–653.
137. E.M. Nfaha, J.M. Ngundam, R. Tchinda. Modelling of solar/diesel/battery hybrid power systems for far-north Cameroon. Renewable Energy. 2007. 32; 832-844.
138. Shafiqur Rehman, Md. Mahbub Alam, J.P. Meyer, Luai M. AlHadhrami. Feasibility study of a wind-PV-diesel hybrid power system for a village. Renewable Energy. 2012. 38; 258-268.
139. Huang, G., Umaz, R., Karra U., Li, B. and Wang, L. A. Biomass-based Marine Sediment Energy Harvesting System, Symposium on Low Power Electronics and Design, 2013 IEEE.
140. Huang, G., Umaz, R., Karra, U., Li, B. and Wang, L.. A Biomass-based Marine Sediment Energy Harvesting System, Symposium on Low Power Electronics and Design IEEE. 2013. 359-364.
141. Yong-Ping Gao a, Zi-Bo Zhai b, Ke-Jing Huang b, Ying-Ying Zhang. Energy storage applications of biomass-derived carbon materials: batteries and supercapacitors, New Journal of Chemistry, 2017. 41; 11456-11470.
142. Arimi, M.M.M, Mecca, C. A., Kiprop, A. K., Ramkat, R. Recent trends in applications of advanced oxidation processes (AOP) in bioenergy production: Review, Renewable and sustainable energy reviews, 2020, 121; 109669.
143. Ekholm T, Krey V, Pachauri S, Riahi K. Determinants of household energy consumption in India. Energy Policy 2010. 38; 5696-707.
144. Balachandra P. Modern energy access to all in rural India: an integrated implementation strategy. Energy Policy 2011.39; 7803-14.
145. Prasad S, Singh A, Joshi HC. Ethanol as an alternative fuel from agricultural, industrial and urban residues. Resour Conserv Recycl 2007. 50 (2007);1–39.
146. Murali S, Shrivastava R, Saxena M. Quantification of agricultural residues for energy generation—a casestudy. J Inst Public Health Eng 2008. 2007–08(3):27.
147. MNRE. Biomass power and cogeneration programme of the Ministry of New and Renewable Energy. Government of India 2013.
148. Davis SC, Hay W, Pierce J. Biomass in the energy industry: an introduction. London, United Kingdom: BP p.l.c.; 2014.
149. NPC. A report on improvement of agricultural residues and agro-by-products utilization. Lodhi Road, New Delhi, India: National Productivity Council. 1987.
150. MNES. In: Ministry of non-conventional energy sources. Government of India, B-14, CGO complex, Lodhi Road, New Delhi, India. 1996.
151. Reprint Series No. 1/99-PC (http://planningcommission.nic.in/reports/wrkpapers/wp_lease.pdf).
152. Singh Y. Waste biomass to energy, environment and waste management, (www.wealthywaste.com/wastebiomass-to-energy) 1 October, 2008.
153. Kapoor RP, Agarwal A. The price of forests. New Delhi: Centre for Science and Environment; 1992. 173.
154. Planning Commission of India, Working paper on ‘Leasing of degraded forest land, report.
155. Ravindranath NH, Somashekar HI, Nagaraja MS, Sudha P, Sangeetha G, Bhattacharya SC, et al. Assessment of non-plantation biomass resources potential for energy in India. Biomass Bioenergy 2005. 29; 178–90.
156. Reddy AKN. The blessing of the commons. Energy Sustainable Dev 1995;II (1):48–50.
157. Singh Y. Waste biomass to energy, environment and waste management 〈www.wealthywaste.com/wastebiomass-to-energy〉; 1 October, 2008.
158. Zafar S. Biomass wastes, alternative energy eMagazine—AltEnergyMag.com; August/September, 2009.
159. Hobson PN, Bousefield R, Summers R. Methane production from agricultural and domestic wastes. London: Applied Science Publishers Ltd.; 1981. p. 121.
160. Zafar S. Waste to energy conversion—a global perspective. EARTHTOYS the renewable energy emagazine 2008.
161. Varshney R, Bhagoria JL, Mehta CR. Small scale biomass gasification technology in India—an overview. J Eng, Sci Manage 2010. 3; 33-40.
162. Technology Informatics Design Endeavour (TIDE). Bioreactor for treatment of organic fraction of urban municipal waste at Siraguppa. Bangalore: Technology Informatics Design Endeavour; 2005 (In: TIDE technical report).
163. Jagadish KS, Chanakya HN. Final report on project biogas production from leaf biomass. Bangalore: Indian Institute of Science; 1999 (In: ASTRA technical report).
164. Hiremath RB, Kumar B, Balachandra P, Ravindranath СКАЧАТЬ