2017
DOI: 10.1021/acs.energyfuels.7b01515
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Combined Effect of Compression Ratio, Injection Pressure, and Injection Timing on Performance and Emission of a DI Compression Ignition Engine Fueled with Diesel–Aegle Marmelos Oil–Diethyl Ether Blends Using Response Surface Methodology

Abstract: Renewable energy research in support of the generously developing choice for diesel fuel automobiles has been concentrated because of environmental causes and hurly burly into petroleum combat. The test has been conducted in a light-duty single cylinder variable compression ratio (VCR) naturally aspirated multifuel research engine. Three input parameters, compression ratio (CR), injection pressure (IP), and injection timing (IT), are taken as input amends. In this study parameters are taken as 16, 17, and 18 f… Show more

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Cited by 26 publications
(22 citation statements)
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“…29 Incomplete combustion occurs at lower IP due to insufficient atomization and too much IP leads to wall quench and charge dilution. 6,30 At higher IP and CR, the fuel particles hit the surfaces of combustion chamber due to lower clearance volume leading to HC emission. 6 The retardation of IT positively affects the BSFC, HC, and CO emissions.…”
Section: Methodsmentioning
confidence: 99%
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“…29 Incomplete combustion occurs at lower IP due to insufficient atomization and too much IP leads to wall quench and charge dilution. 6,30 At higher IP and CR, the fuel particles hit the surfaces of combustion chamber due to lower clearance volume leading to HC emission. 6 The retardation of IT positively affects the BSFC, HC, and CO emissions.…”
Section: Methodsmentioning
confidence: 99%
“…6,30 At higher IP and CR, the fuel particles hit the surfaces of combustion chamber due to lower clearance volume leading to HC emission. 6 The retardation of IT positively affects the BSFC, HC, and CO emissions. 31 Advancing of IT enhances the combustion, lowers NOx emissions and opacity but reduces the maximum cylinder gas pressure and BTE.…”
Section: Methodsmentioning
confidence: 99%
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“…This isomer of butanol has several favorable properties for blending with diesel fuel, including very high cetane number, reasonable energy density for on-board storage, high oxygen content, low autoignition temperature, broad flammability limits, and high miscibility with vegetable oils and diesel fossil. Thus, DEE has been recently reported as a low-emission renewable fuel and high-quality combustion improver, for the utilization of several vegetable oils, as a biofuel in blends with diesel fossil [419,[442][443][444][445][446][447][448][449][450][451][452][453][454][455][456][457]. Similarly, dimethyl carbonate has been used as a component of triple mixtures to reduce the viscosity of straight vegetable oils [458,459].…”
Section: Blends Of Straight Vegetable Oils (Svo) With Less Viscous Anmentioning
confidence: 99%