The Survey of Renewable Energy Sources

Authors

  • Jitendra Sunte  Assistant Professor, Department of Mechanical Engineering, Lingaraj Appa Engineering College Bidar, Karnataka, India
  • Mahesh  Lecturer Govt. Polytechnic College Aurad Bidar Karnataka India
  • Prashant Kale  Principal Saraswati Pu College Bhalki Bidar Karnataka India
  • Blaji Rangrao Jadhav  Lecturer Govt. Pu College Bhalki Bidar Karnataka India

Keywords:

Renewable Energy Sources, Key Points Strategies

Abstract

Nowadays depleting in fossil fuel energy which is non-renewable in nature available in rarely. The current trend evolving renewable source as it is available in plenty of quantity in cheaply. This paper is dealing with all renewable energy sources with key points strategies. Further there is vast energy available which is useful in future trend in exporting energy in quantity base. Not only saving energy also benefits as pollution free environment.

References

  1. Gabrielle B. Significance and limitations of first generation biofuels. J Soc Biol 2008;202(3):161e5.
  2. Ma F, Hanna MA. Biodiesel production: a review. Bioresour Technol 1999;70: 1e15.
  3. Karavalakis G, Tzirakis E, Mattheou L, Stournas S, Zannikos F, Karonis D. The impact of using biodiesel/marine gas oil blends on exhaust emissions from a stationary diesel engine. J Environ Sci Health A Tox Hazard Subst Environ Eng 2008;43(14):1663e72.
  4. Manzanera M, Molina-Mu~noz ML, Gonz_alez-L_opez J. Biodiesel: an alternative fuel. Recent Pat Biotechnol 2008;2(1):25e34.
  5. Simmons BA, Loque D, Blanch HW. Next-generation biomass feedstocks for biofuel production. Genome Biol 2008;9:242.
  6. Gomez LD, Steele-King CG, McQueen-Mason SJ. Sustainable liquid biofuels from biomass: the writing's on the walls. New Phytol 2008;178: 473e85.
  7. Jongschaap REE, Corr_e WJ, Bindraban PS, Brandenburg WA. Claims and facts on Jatropha curcas L. Global Jatropha curcas evaluation, breeding and propagation programme. Report 158. Wageningen, the Netherlands: Plant Research International B.V.; 2007. p. 42.
  8. Achten WMJ, Mathijs E, Verchot L, Singh VP, Aerts R, Muys B. Jatropha biodiesel fueling sustainability? Biofuel Bioprod Bior 2007;1(4):283e91.
  9. el Badwi SM, Adam SE. Toxic effects of low levels of dietary Jatropha curcas seed on Brown Hisex chicks. Vet Hum Toxicol 1992;34(2):112e5.
  10. Martínez-Herrera J, Siddhuraju P, Francis G, Da vila-Ortíz G, Becker K. Chemical composition, toxic/antimetabolic constituents, and effects of different treatments on their levels, in four provenances of Jatropha curcas L. from Mexico. Food Chem 2006;96:80e9.
  11. FDA notification to industry, 6th July 2012, UCN310867.
  12. Makkar H, Maes Jeroen, De Greyt Wim, Becker Klaus. Removal and degradation of phorbol esters during pre-treatment and transesterification of Jatropha curcas oil. J Am Oil Chem Soc 2009;86(2):173e81.
  13. European commission Report: Expert Meeting Jatropha, Brussels 7th December 2007.
  14. Cantrell CL, Chong NS, Hydrocarbon-based fuels from biomass. US Patent 5,186,722; 1993.
  15. Freisthler M. Alternative fuel composition. US Patent 7037348;; 2006.
  16. Nair MK, BhaskaraRao EVV, Nambiar KKN, Nambiar MC. Cashew (A.O.L) monograph on plantation crops-I. Kasargod, Kerala: Central Plantation Crops Research Institute; 1979.
  17. The Regional Research Laboratory, Hyderabad Cashew nut shell liquid extraction and uses e A survey of cashew nut shell liquid patents. Cochin, India: The Cashew Export Promotion Council; 1985.
  18. Menon ARR, Pillai CKS, Sudha JD, Mathew AG. Cashew nut shell liquid e its polymeric and other industrial products. J Sci Ind Res 1985;44:324e38.
  19. Das Piyali, Ganesh Anuradda. Bio-oil from pyrolysis of cashew nut shellda near fuel. Biomass Bioenergy 2003;25(1):113e7.
  20. Deepak Kumar T, Rakesh S, Kumar SK, Shanti P, Rajeev R, Raghunath RN, et al. Fuel additive composition for stabilising blends of ethanol and a hydrocarbon. US patent 7473283; 2009.
  21. Mallikappa DN, Reddy RN, ChSN Murthy. Performance and emission characteristics of stationary CI engine with cardanol bio fuel blends. Int J Sci Eng Res 2011;2:1e6.
  22. Palvannan V, Balagurunathan K. Technical sustainability of cashew nut shell liquid as a renewable fuel in compression ignition engine. Eur J Sci Res 2012;76:614e27.
  23. Velumurugan A, Loganathan M. Effect of ethanol addition with cashew nut shell liquid on engine combustion and exhaust emission in a DI diesel engine. Int J Eng Sci Technol 2012;4:3316e28.
  24. Mallikappa DN, Reddy RP, ChSN Murthy. Performance and emission characteristics studies on stationary diesel engines operated with cardanol biofuel blends. Int J Renew Energy Res 2012;2:295e9.
  25. Kasundra PK, Gohil AV. Anticipating emission & suggestions for reducing exhaust emissions with CNSL as fuel. BIOINFO Mech Eng 2011;1:06e10.
  26. PCD 3 Committee. BIS IS 1460:2005 automotive diesel fuel e specification. Bureau of Indian Standard; 2012. pp. 1e11.
  27. Mythili CV, Retna AM, Gopalakrishnan S. Synthesis, mechanical, thermal and chemical properties of polyurethanes based on cardanol. Bull Mater Sci 2004;27(3):235e41.
  28. D02.05 Subcommittee. ASTM D1500 standard test method for ASTM color of petroleum products (ASTM Color Scale). ASTM International Book of Standards; 2014. 05.01, D1500-12.
  29. Hajba L, Eller Z, Nagy E, Hancsok J. Properties of diesel-alcohol blends. Hung J Ind Chem 2011;39:349e52.
  30. Nair CB, Subbarao PV, Pullela PK, Kini GM, A biofuel composition, process of preparation and a method of fueling thereof, US 8,282,692 B2; 2012.
  31. Khaled R. Asfar, Thaer H. Al-Rabadi. Fuel blends in compression ignition engines 1st International Energy Conversion Engineering Conference Portsmouth, Virginia AIAA 2003-6027, 17-2.
  32. Yoshimoto Y, Onodera M. Performance of a diesel engine fueled by rapeseed oil blended with oxygenated organic compounds. SAE International, Powertrain & Fluid systems Conference and exhibition, San Diego, CA, USA. Document identifier 2002-01-2854; 2002.
  33. Frega N, Mozzon M, Lercke G. Effects of free fatty acids on oxidative stability of vegetable oil. J Am Oil Chem Soc 1999;76:325e9.
  34. Novaira M, Moyano M, Biasutti MA, Silber Juana J, Correa NM. An example of how to use AOT reverse micelle interfaces to control a photoinduced intramolecular charge-transfer process. Langmuir 2008;24:4637e46.
  35. Datta A, Mandal D, Pal SK, Bhattacharyya K. Intramolecular charge transfer processes in confined systems. Nile red in reverse micelles. J Phys Chem B 1997;101(49):10221e5.
  36. Promoting the conservation and use of underutilized and neglected crops. 1. Physic nut: Jatropha curcas L. The International Plant Genetic Resources Institute (IPGRI); 1996. pp. 16e8.

IInternational Journal of Scientific Research in Mechanical and Materials Engineering

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Published

2022-07-25

Issue

Volume 6, Issue 4, July-August-2022

Section

Research Articles

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How to Cite

[1]
Jitendra Sunte, Mahesh, Prashant Kale, Blaji Rangrao Jadhav, " The Survey of Renewable Energy Sources, IInternational Journal of Scientific Research in Mechanical and Materials Engineering(IJSRMME), ISSN : 2456-3307, Volume 6, Issue 4, pp.36-43, July-August-2022.