Researches on Soot Filtration Process by Comparing Simulation and Experimental Tests
Abstract
In this paper, the main objective of using numerical simulation was to highlight and analyse details that are very difficult to highlight through experimental tests. The development of the simulation model was also done for predictive purposes. In other words, after validation of the model, it can be used to estimate the filter load in other conditions than the experimental ones, respectively to evaluate how the particulate filter affects the operation of the internal combustion engine. In order to achieve the desired result, the creation of the model was done in two stages, the first stage was the creation of a model containing all the components of the engine, except the particle filter in order to identify the parameters of the combustion process and pollutant emissions - model validated on the basis of the indicated pressure curves, and the second stage was to complete the initial model with a particle filter and validate it from the point of view of the pressure drop, respectively of the engine performance, the aim was to obtain a trend, respectively values similar to the experimental ones.
References
[2]. Böhm H., Jander H., Tanke D., PAH growth and soot formation in the pyrolysis of acetylene and benzene at high temperatures and pressures: Modeling and experiment, Symposium (International) on Combustion, vol. 27, 1998.
[3]. Ruiz M. P., de Villoria R. G., Millera A., Alzueta M. U., Bilbao R., Influence of the temperature on the properties of the soot formed from C2H2 pyrolysis, Chemical Engineering Journal, vol. 127, 2007.
[4]. Xi J., Zhong B.-J., Soot in Diesel Combustion Systems, Chemical Engineering & Technology, vol. 29, 2006.
[5]. Awais M., Bhuiyan A. A., Recent advancements in impedance of fouling resistance and particulate depositions in heat exchangers, International Journal of Heat and Mass Transfer, vol. 141, 2019.
[6]. Engeljehringer K., AVL Emission Test Systems Light-Duty Application: Cars and LCV, 2013.
[7]. Jurchiş B., Nicolae B., Iclodean C., Burnete N., Study of emissions for a compression ignition engine fueled with a mix of DME and diesel, vol. 252. 2017.
