Theoretical Modeling and Experimental Study of Combustion and Performance Characteristics of Biodiesel in Turbocharged Low Heat Rejection D.I Diesel Engine
| Autor: | Prasath, B. R., Tamilporai, P., Mohd F Shabir |
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| Jazyk: | angličtina |
| Rok vydání: | 2010 |
| Předmět: | |
| Zdroj: | Scopus-Elsevier |
| DOI: | 10.5281/zenodo.1082993 |
| Popis: | An effort has been taken to simulate the combustion and performance characteristics of biodiesel fuel in direct injection (D.I) low heat rejection (LHR) diesel engine. Comprehensive analyses on combustion characteristics such as cylinder pressure, peak cylinder pressure, heat release and performance characteristics such as specific fuel consumption and brake thermal efficiency are carried out. Compression ignition (C.I) engine cycle simulation was developed and modified in to LHR engine for both diesel and biodiesel fuel. On the basis of first law of thermodynamics the properties at each degree crank angle was calculated. Preparation and reaction rate model was used to calculate the instantaneous heat release rate. A gas-wall heat transfer calculations are based on the ANNAND-s combined heat transfer model with instantaneous wall temperature to analyze the effect of coating on heat transfer. The simulated results are validated by conducting the experiments on the test engine under identical operating condition on a turbocharged D.I diesel engine. In this analysis 20% of biodiesel (derived from Jatropha oil) blended with diesel and used in both conventional and LHR engine. The simulated combustion and performance characteristics results are found satisfactory with the experimental value. {"references":["Ziejewski M, Kaufman KR, \"Vegetable oils as a potential alternate fuel\nin direct injection diesel engines\", SAE Paper No. 831357, 1983.","Hemmerlein N, Korte V, Richter H, Schroder G, \"Performance, exhaust\nemissions and durability of modern diesel engines running on rapeseed\noil\", SAE Paper No. 910848, 1991.","Ryan TW, Bagby MO, \"Identification of chemical changes occurring\nduring the transient injection of selected vegetable oils\", SAE Paper No.\n930933, 1993.","Schlick ML, Hanna MA, Schinstock JL, \"Soybean and sunflower oil\nperformance in a diesel engine-, Trans ASAE 31(5):1345-9, 1988..","Dorado MP, Ballesteros E, Arnal JM, Gomez J, Lofez FJ, \"Exhaust\nemissions from a diesel engine fueled with transesterified waste olive\noil\", Fuel 82:1311-5, 2003.","Lang X, Dalai AK, Bakhshi NN, Reaney MJ, Hertz PB, \"Preperation\nand characterization of bio-diesels from various bio-oils\", Biosource\nTechnol 80:53-62, 2001..","Al-Widyan M, Tashtoush G, Abu-Qudais M, \"Utilization of ethyl ester\nof waste vegetable oils as fuel in diesel engines\", Fuel Process Technol\n76:91-10, 2002.","Monyem A, Van Gerpen JH, \"The effect of biodiesel oxidation on\nengine performance and emissions\", Biomass Bioenergy 20:317-25,\n2001.","Perkins LA, Peterson CL, Auld DL, \"Durability testing of transesterified\nwinter rape oil as fuel in small bore, multi-cylinder, DI, CI engines\",\nSAE Paper No. 911764, 1991.\n[10] Zhang Q, FeldmanM, Peterson CL, \"Diesel engine durability when\nfueled with methyl ester of winter rapeseed oil\", ASAE paper No.\n881562, 1988.\n[11] Abderrahim Bouaid, Mercedes Martinez, Jose Aracil, \"A comparative\nstudy of the production of ethyl esters from vegetable oils as a biodiesel\nfuel optimization by factorial design\", Chemical Engineering Journal\n134 ,93-99, 2007.\n[12] A.S. Ramadhas, S. Jayaraj, C. Muraleedhara, \"Biodiesel production from\nhigh FFA rubber seed oil\", Fuel 84 335-340, 2005.\n[13] Ayhan Demirba, \"Comparison of transesterification methods for\nproduction of biodiesel from vegetable oils and fats\", Energy\nConversion and Management 49 125-13, 2008.\n[14] L.C. Meher a, Vidya S.S. Dharmagadda b, S.N. Naik, \"Optimization of\nalkali-catalyzed transesterification of Pongamia pinnata oil for\nproduction of biodiesel\", Bioresource Technology 1392-1397, 97, 2006.\n[15] Sanjib Kumar Karmee, Anju Chadha, \"Preparation of biodiesel from\ncrude oil of Pongamia pinnat\", Bioresource Technology 96, 1425-1429,\n2005.\n[16] James A. Leidel, \"An Optimized Low Heat Rejection Engine for\nAutomotive Use - An Inceptive Study\", SAE Paper No. 970068, 1997.\n[17] Abdullah Uzun a,*, Iİsmet C┬© evik b, Mustafa Akc┬©il, \"Effects of\nthermal barrier coating on a turbocharged diesel engine performance\",\nSurface and Coatings Technology 116-119, 505-507, 1999.\n[18] Ekrem Bu┬¿yu┬¿kkaya *, Tahsin Engin, Muhammet Cerit, \"Effects of\nthermal barrier coating on gas emissions and performance of a LHR\nengine with different injection timings and valve adjustments\", Energy\nConversion and Management 47, 1298-1310, 2006.\n[19] I. TaymazT, K. C┬© akVr, A. Mimaroglu, \"Experimental study of\neffective efficiency in a ceramic coated diesel engine\", Surface and\nCoatings Technology 200, 1182- 1185, 2005.\n[20] S.Jaichandar and P.Tamilporai, \"Low Heat Rejection Engines - An\nOverview\", SAE 2003-01-0405,2003.\n[21] Imdat Taymaz, \"The effect of thermal barrier coatings on diesel engine\nperformance\", Surface and Coatings Technology 201, 5249-5252, 2007.\n[22] P.Tamilporai,\" Simulation and analysis of combustion and heat transfer\nin low heat rejection diesel engine using two zone combustion model\nand different heat transfer models\" PhD thesis, Anna University,\nIndia.1998.\n[23] B.Rajendra Prasath, P.Tamilporai, Mohd.F.Shabir, \"Simulation and\nAnalysis of Combustion, Performance and Emission Characteristics of\nBiodiesel Fueled Low Heat Rejection Direct Injection Diesel Engine\",\nSAE Paper No. 2007-32-0094.\n[24] Jonh. B. Heywood, \"Internal combustion engines fundamentals\", Tata\nMcGraw Hill book company; 1989.\n[25] Ganesan V, \"Computer simulation of compression ignition engines\",\nUniversity Press (India) Ltd.; 2000.\n[26] P.Tamilporai, N.Baluswamy, \" Simulation and analysis of heat transfer\nin low heat rejection direct injection diesel engines using a two zone\nmodel\" 3 rd Asian - Pacific international symposium on Combustion\nand energy utilization.1998.\n[27] Fangrui Maa, Milford A. Hannab,\" Biodiesel production: a review\"\nBioresource Technology 70, 1-15, 1999.\n[28] P. Chitra, P. Venkatachalam and A. Sampathrajan, \"Optimisation of\nexperimental conditions for biodiesel production from alkali-catalysed\ntransesterification of Jatropha curcus oil\" Article from Department of\nBio-Energy, AEC & RI, TamilNadu Agricultural University,\nCoimbatore-641 003, Tamil Nadu, India, 2005.\n[29] A.S. Ramadhas_, S. Jayaraj, C. Muraleedharan, \"Theoretical modeling\nand experimental studies on biodiesel-fueled engine\", Renewable\nEnergy 31, 1813-1826. 2006.\n[30] Rakopoulos CD, Hountalas DT, Zannis TC, \"Theoretical study\nconcerning the effect of oxygenated fuels on DI Diesel engine\nperformance and emissions\" SAE Paper No. 2004-01-1838, 2004.\n[31] Rakopoulos , K.A. Antonopoulos, D.C. Rakopoulos,\" Development and\napplication of multi-zone model for combustion and pollutants formation\nin direct injection diesel engine running with vegetable oil or its biodiesel\",\nEnergy Conversion and Management 48, 1881-1901, 2007.\n[32] Gonzalez Gomez ME, Howard-Hildige R, Leahy JJ, O_Reilly T, Supple\nB, Malone M, \"Emission and performance characteristics of a 2 litre\nToyota Diesel van operating on esterified waste cooking oil and mineral\ndiesel fuel\", Environ Monit Assess 65,13-20, 2000.\n[33] Pramanik K, \" Properties and use of jatropha curcas oil and diesel fuel\nblends in compression ignition engine. Renew Energy 28(2):239-48,\n2003.\n[34] Al-Widyan MI, Tashtoush G, Abu-Qudais M, \" Utilization of ethyl ester\nof waste vegetable oils as fuel in diesel engines\", Fuel Process Technol\n76,91-103, 2000.."]} |
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