Conversion Efficiencies of Urea -SCR System for Mahua Methyl Ester Fuelled DI Diesel Engine

iranica journal of energy and environment Pub Date : 2014-01-01 DOI:10.5829/IDOSI.IJEE.2014.05.01.07

A. Babu, R. Calay

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引用次数: 4

Abstract

Stringent emission regulations on diesel-powered vehicles and some of biodiesel emissions have led to development of new technologies to reduce emission of nitrogen oxides (NO ). Out of the choices available, X Selective Catalytic Reduction (SCR) has shown to be the most promising exhaust after-treatment system for reducing oxides of nitrogen in the near term in-use applications. SCRs use the ammonia containing compound urea, as a reducing agent. This paper describes an experimental investigation of Urea-SCR,which has been designed for comparing efficiency of the SCR system for diesel and biodiesel. For this study, a SCR exhaust system was tested on a steady state, direct injection Kirloskar single cylinder diesel engine. Mahua Methyl Ester (MME) oil has used as a biodiesel. From the experimentation, it was concluded that the conversion efficiencies were higher for diesel comparable to biodiesel. The analysis also shows the Urea SCR system has a maximum of 93.4% NO conversion efficiency of diesel fuel. For biodiesel, maximum NO conversion efficiency XX of Urea-SCR was approximately 49%. This experimentation also revealed that the Urea-SCR system hasan excellent HC conversion efficiency at all engine loads and using both fuels.

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麻花甲酯直喷式柴油机尿素-SCR系统的转化效率

针对柴油动力车辆和部分生物柴油排放的严格排放法规，促使开发了减少氮氧化物排放的新技术。在现有的选择中，X选择性催化还原(SCR)已被证明是短期内用于减少氮氧化物的最有前途的尾气后处理系统。scr使用含氨化合物尿素作为还原剂。本文介绍了尿素-SCR的实验研究，设计了一个比较柴油和生物柴油SCR系统效率的实验装置。在这项研究中，在一台稳定的Kirloskar单缸直喷柴油发动机上测试了SCR排气系统。麻花甲酯(MME)油已被用作生物柴油。实验结果表明，与生物柴油相比，柴油的转化效率更高。分析还表明，尿素SCR系统对柴油的NO转化效率最高可达93.4%。对于生物柴油，尿素- scr的最大NO转化效率XX约为49%。该实验还揭示了尿素- scr系统在所有发动机负载和使用两种燃料时都具有出色的HC转换效率。

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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iranica journal of energy and environment

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