Experimental Investigation Of Ethanol/Water Blend Injection On Emission Characteristics Of Diesel Engines

Abstract

In the present study, a new technology controlled Ethanol/Water mix

injection method is applied to a direct injection (DI) diesel engine to show effect on

engine performance and emissions under steady operation. Ethanol/water mix is

injected into the inlet manifold during inlet period. The experimental test matrix

included six different fuels, namely Neat Diesel fuel and five secondary

Ethanol/Water mix fuel with diesel fuel. The mixed fuels contain 0.552.79 by

volume fraction of diesel fuel, corresponding to 0%, 25%, 50%, 75% and 100% by

volume of ethanol in the mixes. Tests were performed in a single-cylinder naturally

aspirated, four stroke, water cooled, and direct-injection diesel engine at variable

engine speed (600-1600 rpm) on full engine load condition by using six-test fuels. It

has been found that the application of Ethanol/Water mix leads to a significant

reduction in the more environment concerning emissions of oxides of nitrogen

(NOx) except increase at case pure ethanol, carbon dioxide (CO2), hydrocarbon

(UBHC) at case (EW50, EW75, Ethanol), and exhaust gas temperature. However,

increase in carbon monoxide (CO), hydrocarbon (UBHC) at case (Water, EW25)

and oxygen (O2) emission have been found after use of Ethanol/Water. The results

revealed that the brake specific fuel composition (BSFC), volumetric efficiency

(VE) of both Ethanol/Water and diesel fuels reduces with increasing blend ratio,

with a brake thermal efficiency (BTE) increase for both fuels, and a brake power

(BP) increase. This can be attributed to the oxygen content of ethanol when

compared with Neat Diesel. Ethanol/water injected diesel engine is modeled by

using DIESEL-RK simulation software model for same experimental operation

conditions. The obtained results are compared with conventional diesel engine in

terms of NOx, CO2 emissions, exhaust gas temperature, and performances. The

simulation results agree with experimental data quite well. The results simulation

show that Bosch smoke number, PM and summary emission of (PM and NOx)

emissions increase after speed 1000 rpm with dual fuel water content decreasing,

and the NO2 emission under the simulated test decreases remarkably. With fuel

ethanol content decreasing, brake means effective pressure (BMEP) descends distinctly comparing to the Neat Diesel fuel.

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APA

Mahjoub, M (2021). Experimental Investigation Of Ethanol/Water Blend Injection On Emission Characteristics Of Diesel Engines. Afribary. Retrieved from https://track.afribary.com/works/experimental-investigation-of-ethanol-water-blend-injection-on-emission-characteristics-of-diesel-engines

MLA 8th

Mahjoub, Mohammed "Experimental Investigation Of Ethanol/Water Blend Injection On Emission Characteristics Of Diesel Engines" Afribary. Afribary, 20 May. 2021, https://track.afribary.com/works/experimental-investigation-of-ethanol-water-blend-injection-on-emission-characteristics-of-diesel-engines. Accessed 23 Nov. 2024.

MLA7

Mahjoub, Mohammed . "Experimental Investigation Of Ethanol/Water Blend Injection On Emission Characteristics Of Diesel Engines". Afribary, Afribary, 20 May. 2021. Web. 23 Nov. 2024. < https://track.afribary.com/works/experimental-investigation-of-ethanol-water-blend-injection-on-emission-characteristics-of-diesel-engines >.

Chicago

Mahjoub, Mohammed . "Experimental Investigation Of Ethanol/Water Blend Injection On Emission Characteristics Of Diesel Engines" Afribary (2021). Accessed November 23, 2024. https://track.afribary.com/works/experimental-investigation-of-ethanol-water-blend-injection-on-emission-characteristics-of-diesel-engines