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406 407 408 [1] 409 410 [2] 411 412 [3] 413 [4] 414 [5] 415 416 [6] 417 418 [7] 419 420 [8] 421 422 [9] 423 424 [10] 425 426 [11] 427 428 [12] 429 430 [13] 431 432 [14] 433 434 [15] 435 436 [16] 437 438 [17] 439 440 [18] 441 442 [19] 443 444 [20] 445 [21] 446 447 [22] 448 References Pavlas M, Tous M, Be ́bar L, Stehl ́ık P. Waste to energy- An evaluation of the environmental impact. Applied Thermal Engineering 2010; 20;2326-32. Ammar Y, Joyce S,Norman R, Wang Y, Roskilly AP .Low grade thermal energy sources and uses from the process industry in the UK. Applied Energy 2012;89;3-20. Key World Energy Statistics. International Energy Agency 2008. Marrero GA. Greenhouse gases emissions, growth and the energy mix in Europe. Energy Economics 2010;32;135663. Keeling CD, Whorf TP. Atmospheric CO2 records from sites in the SIO air sampling network. In Trends: A compendium of data on global change. Technical Report, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tenn,U.S.A., 2005. Chacartegui R, Sa ́nchez D, Muoz JM, Sa ́nchez T. Alternative ORC bottoming cycles FOR combined cycle power plant. Applied Energy 2009;86:2162-70. Wang J, Dai Y, Gao L. Exergy analyses and parametric optimizations for different cogeneration power plants in cement industry. Applied Energy 2009;86:941-8. Bianchi M, Pascale AD. Bottoming cycles for electric energy generation: Parametric investigation of available and innovative solutions for the exploitation of low and medium temperature heat sources, Applied Energy 2011;88;1500-9. Wei D, Lu X, Lu Z and. Gu J. Performance analysis and optimization of organic Rankine cycle (ORC) for waste heat recovery. Energy Conversion and Management 2007;48:1113-9. Cayer E, Galanis A, Nesreddine H. Parametric study and optimization of a transcritical power cycle using a low temperature source. Applied Energy 2010;87;1349-1357. Shengjun Z, Huaixin W, Tao G .Performance comparison and parametric optimization of subcritical Organic Rankine Cycle (ORC) and transcritical power cycle system for low-temperature geothermal power generation. Applied Energy 2011;88;2740-2754. Roy JP, Mishra MK, Misra A. Performance analysis of an Organic Rankine Cycle with superheating under different heat source temperature conditions. Applied Energy 2011;88;2995-3004. Algieri A, Morrone P.Comparative energetic analysis of high-temperature subcritical and transcritical Organic Rankine Cycle (ORC). A biomass application in the Sibari district. Applied Thermal Engineering 2012 36;236-44. Garcia RF.Efficiency enhancement of combined cycles by suitable working fluids and operating conditions. Applied Thermal Engineering 2012, doi: 10.1016/j.applthermaleng.2012.02.039. Wang EH, Zhang HG, Fan BY, Ouyang MG, Mu QH. Study of working fluid selection of organic Rankine cycle (ORC) for engine waste heat recovery. Energy 2012 36;3406-18. Eurostat, Statistical Office of the European Communities: Energy, transport and environment indicators. On the web:http://www.epp.eurostat.ec.europa.eu. Morsy El Gohary M, Abdou KM. Computer based selection and performance analysis of marine diesel engine. Alejandria Engineering Journal 2011;50;1-11. Arias DA, Shedd TA, Jester RK. Theoretical analysis of waste heat recovery from an internal combustion engine in a hybrid vehicle. SAE Paper 2006;2006-01-1605. Teng H, Regner G. Improving fuel economy for HD Diesel Engines with EHR Rankine cycle driven by EGR cooler heat rejection. SAE Paper 2009;2009-01-2913. Ringler J, Seifert M, Guyotot V, Hu ̈bner W. Rankine cycle for waste heat recovery of IC engines. SAE Paper 2009;2009-01-0174. DolzV,NovellaR.,Garc ́ıaA,Sa ́nchezJ.HDDieselengineequippedwithabottomingRankinecycleaswasteheatrecoverysystem.Part1: Study and analysis of the waste heat energy. Applied Thermal Engineering 2011;36:269-78. Serrano JR, Dolz V, Novella R, Garc ́ıa A. HD Diesel engine equipped with a bottoming Rankine cycle as waste heat recovery system. Part 2: Evaluation of alternative solutions. Applied Thermal Engineering 2011;36:279-87 15PDF Image | Methodology to design a bottoming Rankine cycle
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