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EXPERIMENTAL AND NUMERICAL STUDY ON COOLING SYSTEM WASTE HEAT RECOVERY FOR ENGINE AIR PREHEATING BY TERNARY HYBRID NANOFLUID

Vikash Kumar, Rashmi Rekha Sahoo

2020Enhanced heat transfer/Journal of enhanced heat transfer23 citationsDOI

Abstract

The performance characteristics of a car radiator with new radiator coolants of ternary hybrid nanofluid of 0.12% vol. fraction (Al2O3-CuO-TiO2/water) and water is experimentally investigated. Waste heat from the mentioned radiator coolants has been treated as the preheating intake air for a single-cylinder diesel engine, and the performance was evaluated and compared. Furthermore, the numerical analyses were processed through a mixture model and homogeneous model (single-phase) approach techniques. However, the ternary hybrid nanofluid (THNF) showed a 14% higher heat transfer coefficient at 8 Lpm, and the mixture model predicted a 5% better result than the single-phase approach. The preheating condition in the engine enhances the engine performance, and a 50% engine load reveals a maximum enhancement of 12.54% in brake thermal efficiency at 46.5° C, with a fuel-saving rate of 14.28% at 8 Lpm. Also, a variation in coolant flow rate (CFR) and air velocity for a radiator influences positive engine performance. Moreover, the engine energy distribution through the pie chart revealed that the heat transfer rate for THNF increased by 5% at an air velocity of 0.75 m/s. Therefore, the use of waste heat through THNF radiator coolants for air preheating in engines achieved the enhancement in fuel consumption rate for the same power generation.

Topics & Concepts

NanofluidMaterials scienceRadiator (engine cooling)CoolantThermal efficiencyWaste heatHeat transferNuclear engineeringDiesel engineNaturally aspirated engineTernary operationInternal combustion engine coolingHeat transfer coefficientEnvironmental scienceThermodynamicsMechanicsMechanical engineeringInternal combustion engineCombustion chamberCombustionExhaust gas recirculationEngineeringChemistryComputer scienceHeat exchangerOrganic chemistryPhysicsProgramming languageNanofluid Flow and Heat TransferHeat transfer and supercritical fluidsAdvanced Combustion Engine Technologies
EXPERIMENTAL AND NUMERICAL STUDY ON COOLING SYSTEM WASTE HEAT RECOVERY FOR ENGINE AIR PREHEATING BY TERNARY HYBRID NANOFLUID | Litcius