Experimental study on diesel engine exhaust gas recirculation performance and optimum exhaust gas recirculation rate determination method

• Published in: Royal Society open science Vol. 6; no. 6; p. 181907
• Main Authors: Zu, Xiang-huan, Yang, Chuan-lei, Wang, He-Chun, Wang, Yin-yan
• Format: Journal Article
• Language: English
• Published: England The Royal Society 01.06.2019
• Subjects: Engineering; exhaust gas recirculation; marine diesel engine; optimal exhaust gas recirculation rate; optimization algorithm; performance evaluation; performance evaluation; marine diesel engine; exhaust gas recirculation; optimization algorithm; optimal exhaust gas recirculation rate
• ISSN: 2054-5703; 2054-5703
• DOI: 10.1098/rsos.181907

In order to study the exhaust gas recirculation (EGR) performance of marine diesel engines, a venturi high-pressure EGR device was established to overcome the exhaust gas reflow problem based on a certain type of turbocharged diesel engine. The EGR performance test is accomplished and an optimal EGR decision-making optimization method based on grey correlation coefficient modified is proposed. The results show that the venturi tube EGR can basically meet the injection requirements of high-pressure exhaust gas and achieve good results. Through the venturi tube EGR, the NO X emissions reduce significantly with the maximum drop of 30.6%. The explosive pressure in cylinder reduces with the EGR rate increases and the cylinder pressure curve shows a single peak at low-speed conditions and double peaks at high-speed condition. However, the fuel consumption rate, NO X and smoke have been negatively affected. Due to small samples, the traditional evaluation method is difficult to determine the optimal EGR rate reasonably, while the proposed method can effectively solve this problem. It can weaken the shortcomings of subjective judgement and greatly improve the rationality of decision-making results.