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2020 | OriginalPaper | Chapter

10. Influence of DEE on Entropy Generation and Emission Characteristics of DI Diesel Engine Fuelled with WCO Biodiesel

Authors : Veena Chaudhary, R. P. Gakkhar

Published in: Alternative Fuels and Their Utilization Strategies in Internal Combustion Engines

Publisher: Springer Singapore

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Abstract

This study present the influence of oxygenate additive DEE on entropy generation, exergy performance coefficient, emission, and performance characteristics of direct-injection (DI) diesel engine fuelled with WCO (waste cooking oil) biodiesel. Experiments are conducted at constant speed of 1600 rpm for full load condition. DEE is mixed with WCO biodiesel blend in the proportion of 5, 10, and 15%. Performance and exergy parameters for WCO biodiesel blend are compared with that of diesel fuel. It is found that addition of DEE enhance the engine performance effectively from the energy and exergy point of view. Reduction in NOx emission is also observed with the addition of DEE. The exergetic efficiency is increased by 8.5% for 15%DEE addition and NOx emission is reduced from 1900 ppm to 420 ppm with the addition of DEE. Lower entropy generation and improve exergy performance coefficient is also observed.

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Agarwal AK (2007) Biofuels (alcohols and biodiesel) applications as fuels for internal combustion engines. Prog Energy Combust Sci 33(3):233–271CrossRef

Agarwal AK, Das LM (2001) Biodiesel development and characterization for use as a fuel in compression ignition engines. J Eng Gas Turbines Power 123(2):440CrossRef

Agarwal AK, Khurana D, Dhar A (2015) Improving oxidation stability of biodiesels derived from Karanja, Neem and Jatropha: step forward in the direction of commercialisation. J Clean Prod 107:646–652CrossRef

Aghbashlo M, Tabatabaei M, Mohammadi P, Pourvosoughi N, Nikbakht AM, Goli SAH (2015) Improving exergetic and sustainability parameters of a DI diesel engine using polymer waste dissolved in biodiesel as a novel diesel additive. Energy Convers Manag 105:328–337CrossRef

Al-Najem NM, Diab JM (1992) Energy-exergy analysis of a diesel engine. Heat Recovery Syst CHP 12(6):525–529CrossRef

Bahoosh R, Ghahfarokhi MS, Safarian M (2017) Energy and exergy analysis of a diesel engine running with biodiesel fuel. J Heat Mass Transf Res

Barik D, Murugan S (2016) Effects of diethyl ether (DEE) injection on combustion performance and emission characteristics of karanja methyl ester (KME)–biogas fueled dual fuel diesel engine. Fuel 164:286–296CrossRef

Basha SA, Gopal KR, Jebaraj S (2009) A review on biodiesel production, combustion, emissions and performance. Renew Sustain Energy Rev 13(6–7):1628–1634CrossRef

Bejan A (2002) Fundamentals of exergy analysis, entropy generation minimization, and the generation of flow architecture. Int J Energy Res 26(7), 0–43CrossRef

Bp-Energy-Outlook-2018.Pdf

Bridjesh P, Periyasamy P, Krishna Chaitanya AV, Geetha NK (2018) MEA and DEE as additives on diesel engine using waste plastic oil diesel blends. Sustain Environ Res 28(3):142–147CrossRef

Çakmak A, Bilgin A (2017) Exergy and energy analysis with economic aspects of a diesel engine running on biodiesel-diesel fuel blends. Int J Exergy 24(2/3/4):151CrossRef

Caliskan H, Hepbasli A (2011) Exergetic cost analysis and sustainability assessment of an internal combustion engine. Int J Exergy 8(3):310CrossRef

Caliskan H, Tat ME, Hepbasli A, Gerpen JHV (2010) Exergy analysis of engines fuelled with biodiesel from high oleic soybeans based on experimental values. Int J Exergy 7(1):20CrossRef

Caton J (2000) On the destruction of availability (exergy) due to combustion processes with specific application to internal-combustion engines. Energy 25(11):1097–1117CrossRef

Chaudhary V, Gakkhar RP (2018) Parametric optimisation of exergy destruction in small DI diesel engine fuelled with neem biodiesel using the Taguchi method. Int J Ambient Energy, pp 1–11

Conti J, Holtberg P, Diefenderfer J, LaRose A, Turnure JT, Westfall L (2016) International energy outlook 2016 with projections to 2040, DOE/EIA–0484(2016), 1296780

Das D, Kumar A, Yadav A (2018) Evaluation of performance, emission and combustion characteristics of a CI engine fueled with Karanja biodiesel and diethyl ether blends. Biofuels 9(1):89–94CrossRef

Deore ER, Jahagirdar RS (2013) Effect of compression ratio on energy and emission performance of single cylinder diesel engine fueled with Jatropha and Karanja Biodiesel. Int J Thermodyn 16(3):132–144CrossRef

Ferguson CR, Kirkpatrick A (2016) Internal combustion engines applied thermosciences

Górski K, Przedlacki M (2014) Evaluation of the influence of diethyl ether (DEE) addition on selected physicochemical properties of diesel oil and ignition delay period. Energy Fuels 28(4):2608–2616CrossRef

Heywood JB (1988) Internal Combustion Engine Fundamentals. McGraw-Hill, New York

Iranmanesh M, Subrahmanyam JP, Babu MKG (2008) Potential of diethyl ether as a blended supplementary oxygenated fuel with biodiesel to improve combustion and emission characteristics of diesel engines, 2008-01–1805, SAE International, Warrendale, PA

Kapilan N, Mohanan P, Reddy RP (2008) Performance and emission studies of diesel engine using diethyl ether as oxygenated fuel additive

Kareem MO, Pena GDJG, Raj A, Alrefaai MM, Stephen S, Anjana T (2017) Effects of neem oil-derived biodiesel addition to diesel on the reactivity and characteristics of combustion-generated soot. Energy Fuels 31(10):10822–10832CrossRef

Khoobbakht G, Akram A, Karimi M, Najafi G (2016) Exergy and energy analysis of combustion of blended levels of biodiesel, ethanol and diesel fuel in a DI diesel engine. Appl Therm Eng 99:720–729CrossRef

López I, Quintana CE, Ruiz JJ, Cruz-Peragón F, Dorado MP (2014) Effect of the use of olive-pomace oil biodiesel/diesel fuel blends in a compression ignition engine: preliminary exergy analysis. Energy Convers Manag 85:227–233CrossRef

Misra RD, Jena J, Murthy MS (2013) Energy and exergy analyses of a CI engine fuelled with palm biodiesel based on experimental data. Int J Exergy 13(1):124CrossRef

Mohebbi M, Reyhanian M, Hosseini V, Said MFM, Aziz AA (2018) The effect of diethyl ether addition on performance and emission of a reactivity controlled compression ignition engine fueled with ethanol and diesel. Energy Convers Manag 174:779–792CrossRef

Moran MJ (1999) Fundamentals of exergy analysis and exergy-aided thermal systems design. In: Bejan A, Mamut E (eds) Thermodynamic optimization of complex energy systems. Springer, Netherlands, Dordrecht, pp 73–92CrossRef

Moran MJ, Shapiro HN (2000) Fundamentals of engineering thermodynamics. Wiley, New York

Ozsezen AN, Canakci M (2011) Determination of performance and combustion characteristics of a diesel engine fueled with canola and waste palm oil methyl esters. Energy Convers Manag 52(1):108–116CrossRef

Patil KR, Thipse SS (2015) Experimental investigation of CI engine combustion, performance and emissions in DEE–kerosene–diesel blends of high DEE concentration. Energy Convers Manag 89:396–408CrossRef

Rakopoulos CD, Giakoumis EG (2004) Availability analysis of a turbocharged diesel engine operating under transient load conditions. Energy 29(8):1085–1104CrossRef

Rakopoulos C, Giakoumis E (2006) Comparative first- and second-law parametric study of transient diesel engine operation. Energy 31(12):1927–1942CrossRef

Rakopoulos DC, Rakopoulos CD, Kyritsis DC (2016) Butanol or DEE blends with either straight vegetable oil or biodiesel excluding fossil fuel: comparative effects on diesel engine combustion attributes, cyclic variability and regulated emissions trade-off. Energy 115:314–325CrossRef

Usta N, Öztürk E, Can Ö, Conkur ES, Nas S, Çon AH, Can AÇ, Topcu M (2005) Combustion of biodiesel fuel produced from hazelnut soapstock/waste sunflower oil mixture in a diesel engine. Energy Convers Manag 46(5):741–755CrossRef

Yamık H, Özel G, Açıkkalp E, İçingür Y (2015) Thermodynamic analysis of diesel engine with sunflower biofuel. Proc Inst Civ Eng Energy 168(3):178–187

Zhang N, Huang Z, Wang X, Zheng B (2011) A comparative study of two kinds of biodiesels and biodiesel-DEE blends in a common rail diesel engine. SAE Int J Fuels Lubr 4(1):96–109CrossRef

Title: Influence of DEE on Entropy Generation and Emission Characteristics of DI Diesel Engine Fuelled with WCO Biodiesel
Authors: Veena Chaudhary
R. P. Gakkhar
Publisher: Springer Singapore
Book: Alternative Fuels and Their Utilization Strategies in Internal Combustion Engines
Print ISBN: 978-981-15-0417-4

Electronic ISBN: 978-981-15-0418-1

Copyright Year: 2020
DOI: https://doi.org/10.1007/978-981-15-0418-1_10