As there is great demand for the reduction of CO2 emission all over the globe. Efforts have been put in the same direction to further reduce the CO2 emission using the solar technology in integration with the Conventional Energy. We have noticed that the proposed scheme may further reduce the emission of CO2 along with that it can also reduce the emission of other harmful green house gases (GHG). Data from a Power situated in Kanpur, India is taken into consideration for analysis on the topic.

Green House Gases (GHG), Renewable Energy, Carbon Emission, Solar Energy

[1] Claudia, S. & Leticia, O. “Energy use and CO2 emissions for Mexico`s cement industry. Elsevier, Energy,” Vol. 23, pp. 725–732, 1998.
[2] Zaheeruddin, Raj Kumar, Atul Kumar, V. K. Jain “Mitigation of CO2 emission in conventional power generation with renewable energy”, IEEE International Conference on Futuristic Trends in Computational Analysis and Knowledge Management, Amity University, Noida, pp. 734 – 738, 25-27 February 2015, ISBN:978-1-4799-8432- 9.
[3] “Safeguarding the Ozone Layer and the Global Climate System”, Issues Related to Hydro-fluoro-carbons and Per-fluoro-carbons IPCC/TEAP Special Report, 2005
[4] “The International Panel on Climate Change (IPPC)” Forth Assessment Report (AR4): Climate Change, 2007.[online] IPPC-Sec@wmo.int
[5] “The International Panel on Climate Change (IPPC)” Forth Assessment Report: Climate Change, WG-1, 2007.
[6] Austin Sarat and Stuart Scheingold, “Cause Lawyering and the State in a Global Era,” text book of Oxford Socio-Legal Studies published by Oxford University Press.
[7] “Energy Technology Perspectives 2008, Scenarios & Strategies to 2050”, International Energy Agency (IEA), Head of Communication and Information Office,9 rue de la Federation, 75739 Paris Cendex 15, France. [Online] http: // www.iea.org/ taxtbase.
9780521700801.
[8] Bert Metz, Lambert Kuijpers, Susan Solomon, Stephen O. Andersen, Ogunlade Davidson, Jose Pons, David de Jager, Tahi Kestin, Martin Manning and Leo Meyer (Eds), “Safeguarding the Ozone Layer and the Global Climate System issues Related to Hydrofluorocarbons and Perfluorocarbons: Issues Related to Hydro-fluoro-carbons and Per-fluoro-carbons” Cambridge University Press, England, UK. pp. 478.
[9] Edward S. Rubin, Sonia Yeh, Mett Antes, Michael Berkenpas, John Davison, “Use of experience curves to estimate the future cost of power plant with CO2 Capture”, ScienceDirect, Elsevier, international Journal of greenhouse gas control, pp. 188-197.
[10] Joris Koornneef , Tim van Keulen, Andre´ Faaij, Wim Turkenburg “Life cycle assessment of a pulverized coal power plant with post-combustion capture, transport and storage of CO2,” Elsevier, international journal of greenhouse gas control, Vol. 2, pp. 448–467, 2008.
[11] RA Durie,P McMullan, CAJ Paulson, “Proceedings of the 5th International Conferences on Greenhouse Gas Control Technologies (GHGT-5)”, held in August 2000 at Cairns, Queensland, Australia.
[12] “The RETScreen Clean Energy Project Analysis Software 4.0, Natural Resources Canada-Canmet Energy,” The RETScreen International Clean Energy Decision Support Centre, 580, http://www.retscreen.net/ang/centre.php [accessed 11.11.11]
[13] Harder E, MacDonald Gibson J. “The costs and benefits of large-scale solar photovoltaic power production in Abu Dhabi: United Arab Emirate,” Elsevier, Renewable Energy, Vol. 36, No.2, pp. 789–96, 2011.
[14] EL-Shimy M., “Viability analysis of PV power plants in Egypt,” Elsevier, Renewable Energy, Vol. 34 No.10, pp. 2187–96, 2009.
[15] CANMET, “Photovoltaic Systems Design Manual”, Available from Natural Resources Canada, CANMET, 580 Booth Street, Ottawa, ON, Canada, K1A 0E4, 1991.
[16] Watsun, PV., “A Computer Program for Simulation of Solar Photo- voltaic Systems,” User’s Manual and Program Documentation, , Watsun Simulation Laboratory, University of Waterloo, Waterloo, ON, Canada, Version 6.1, N2L 3G1; 1999.
[17] Hohm DP, Ropp ME.,”Comparative study of maximum power point tracking algorithms”, Progress in Photovoltaics: Research and Application, Vol. 11, pp. 47-62, 2003.
[18] Razykov TM, Ferekides CS, Morel D, Stefanakos E, Ullal HS, Upadhyaya HM., “Solar photovoltaic electricity: current status and future prospects”, Elsevier, Solar Energy, Volume 85, No. 8, pp. 1580-1608, August,2011 ISSN 0038 092X,10.1016/j.solener.2010.12.002.
[19] Liu JS, HueiKuan C, ChoCha S, LingChuang W, Gau GJ, YwanJeng J. “Photovoltaic technology development: a perspective from patent growth analysis,” Elsevier, Solar Energy Materials & Solar Cells, Vol. 95, pp.3130–3136, 2011.
[20] Javier Gómez-Gil F, Wang X, Barnett A. “Energy production of photovoltaic systems: fixed, tracking, and concentrating”, Renewable and Sustainable Energy Reviews Vol. 16, No. 1, pp. 30, 2012.
[21] Photovoltaic Project analysis, www.retscreen.net, ISBN: 0-662-35672-1, Catalogue no.: M39-99/2003E-PDF © Minister of Natural Resources Canada 2001 – 2004
[22] Chekired F, Larbes C, Rekioua D, Haddad F. “Implementation of a MPPT fuzzy con- troller for photovoltaic systems on FPGA circuit”, Elsevier, Energy Procedia, Vol. 6, pp.541–9, 2011.
[23] Raghuvanshi SP, Raghav AK, Chandra A, “Carbon dioxide emissions from coal based power generation in India”, Elsevier, Energy Conversion and Management, Vol. 47, pp. 427–441, 2006.
[24] Raghuvanshi SP, Chandra A, Raghav AK, “Carbon dioxide emission inventory from power sector”, In Proceedings Energy and Environment—International Conference on Energy and Environment: Strategies for Sustainable Development (ICEE-SSD), pp. 369–78, 2004.
[25] Ranee Dye, Olivier Sibony and S. Patrick Viguerie, “Strategic planning: Three tips for 2009”, April 2009.
[26] “IEA Greenhouse R&D Progress report no.4/9, Building the cost curves for CO2 Storage, Part 1: Source of CO2”, July 2002.[online] http://www.ieaghg.org