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Efficient waste heat recovery system for diesel engines using nano-enhanced phase change materials

Ahmed Saad Soliman, Shuping Zhu, Xu Li, Junguo Dong, Ping Cheng

2021Case Studies in Thermal Engineering49 citationsDOIOpen Access PDF

Abstract

Cold start is one of the most difficult combustion phases of a diesel engine; and a large percentage of pollutants are produced during this period. Therefore, the present study focuses on proposing a numerical investigation of a novel design of an air preheating system to warm up the engine intake air at ambient air temperatures of 273 and 268 K. The preheating system consists of nano-enhanced phase change materials (NEPCM) housed in a plate heat exchanger. A comprehensive thermal model was developed and validated using experimental data from the literature. The model couples the transient turbulent fluid flow of the engine exhaust gases with the melting and solidification processes in the NEPCM domain. The effect of nanoparticle type, nanoparticle weight fraction, engine rotational speed, and ambient temperature were investigated. At 2000 rpm, the charging time was reduced by 34.88%, 30.23%, and 25.58% when using 5 w.t% of SiO2, Al2O3, and CuO nanoparticles, respectively. During the discharging process, in less than 1 min, the cold intake air can be heated from ambient temperatures of 273 and 268 K to 301.8 and 300.6 K, respectively.

Topics & Concepts

Materials scienceHeat exchangerCombustionDiesel engineTransient (computer programming)Exhaust gasExhaust gas recirculationCold start (automotive)Chemical engineeringWaste heat recovery unitEnvironmental scienceThermodynamicsChemistryComputer scienceOrganic chemistryPhysicsOperating systemEngineeringPhase Change Materials ResearchAerodynamics and Fluid Dynamics ResearchAdsorption and Cooling Systems
Efficient waste heat recovery system for diesel engines using nano-enhanced phase change materials | Litcius