Modeling of CI engine performance and emission parameters using artificial neural network powered by catalytic co-pyrolytic renewable fuel

IF 3 Q2 ENGINEERING, CHEMICAL
Indra Mohan , Satya Prakash Pandey , Achyut K Panda , Sachin Kumar
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Abstract

Emission and performance parameters of a 4-stroke CI engine operated on a blend of catalytic co-pyrolysis oil with pure diesel, produced through Azadirachta indica seed, waste LDPE (low-density polyethylene), and aluminium oxide (Al2O3) as a catalyst, are modelled in the current work using an Artificial Neural Network (ANN). At 500°C temperature, the highest oil output obtained was 93.91 wt%. The produced liquid fuel possessed similar physical features to that of pure diesel, including density (794 kg/m3) and heating value (44.42 MJ/kg), but lower flash and fire points that would assist in a better and complete combustion of the fuel blend resulting in a better performance and combustion characteristics. Using inputs including brake mean effective pressure, load, brake power, and torque, a developed ANN model was applied to forecast the performance (Brake Thermal Efficiency and Brake Specific Fuel Consumption) along with emission characteristics (Smoke and NOx). The Levenberg-Marquardt back-propagation training technique was applied for emissions and performance characteristics prediction having the best accuracy. Regression coefficients (R2) for predicting BTE, BSFC, NOx, and smoke were all very near to 1: 0.99801, 0.9983, 0.95753, and 0.97467. The study determines that the proposed alternative fuel could be utilized in blend with the pure diesel to in an unmodified diesel engine. It has also been found that artificial neural networks (ANN) could prove to be useful to model and forecast the performance or emissions of renewable fuels in diesel engines, with the potential for these fuels to be employed in transportation.

Abstract Image

利用人工神经网络为催化协同热解可再生燃料驱动的 CI 发动机性能和排放参数建模
本研究利用人工神经网络(ANN)对使用催化共热解油与纯柴油(由 Azadirachta indica 种子、废弃低密度聚乙烯(LDPE)和作为催化剂的氧化铝(Al2O3)生产)的混合物的四冲程 CI 发动机的排放和性能参数进行了模拟。在 500°C 温度下,产出的油最高达 93.91 wt%。生产出的液体燃料具有与纯柴油相似的物理特性,包括密度(794 kg/m3)和热值(44.42 MJ/kg),但闪点和燃点较低,这有助于混合燃料更好地完全燃烧,从而获得更好的性能和燃烧特性。利用包括制动平均有效压力、负荷、制动功率和扭矩在内的输入,开发的 ANN 模型被用于预测性能(制动热效率和制动特定燃料消耗量)以及排放特性(烟雾和氮氧化物)。采用 Levenberg-Marquardt 反向传播训练技术对排放和性能特征进行预测,准确率最高。预测 BTE、BSFC、NOx 和烟雾的回归系数(R2)都非常接近 1:0.99801、0.9983、0.95753 和 0.97467。研究结果表明,建议的替代燃料可以与纯柴油混合使用,也可以用于未改装的柴油发动机。研究还发现,人工神经网络(ANN)可用于模拟和预测可再生燃料在柴油发动机中的性能或排放,并有可能在运输中使用这些燃料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
3.10
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