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Numerical study of a cold start at the ambient temperature of 243 K on methanol engine with coolant heating

Junyi Liu, Qinglong Yu, Junjie Cheng, Abubakar Unguwanrimi Yakubu, Xuanhong Ye, Shusheng Xiong

2025Fuel9 citationsDOIOpen Access PDF

Abstract

• A coolant-heating method was proposed for methanol engine. • High-temperature coolant enables methanol engines to achieve cold starts at 243 K ambient temperature. • The effects of coolant temperature on methanol distribution, engine efficiency, and emissions were investigated. Misfire during cold starts limits the application of methanol engines. This study proposes a coolant heating method to establish suitable conditions for ignition. Numerical simulations were conducted on a water-cooled, spark-ignition methanol engine to investigate methanol distribution, performance and emissions during cold starts. The results indicate that high-temperature coolant can transfer heat into the cylinder at a high heat flux, providing a methanol-air mixture suitable for flame formation and propagation. Coolant heating enables the methanol engine to start at the ambient temperature of 243 K within the coolant operational temperature range. The main emissions are HC and CO, with minimal emissions of NO x and soot. As the coolant temperature increases, the engine exhibits an increased cylinder pressure and a shorter ignition delay due to the increased cylinder temperature and richer mixture. NO x , CO, and SOOT emissions increase while HC emission decreases. Considering the high temperature engine coolant required, this heating method is more suitable for hybrid vehicles.

Topics & Concepts

CoolantCold start (automotive)MethanolThermodynamicsMaterials scienceNuclear engineeringMechanicsEnvironmental scienceChemistryPhysicsEngineeringOrganic chemistryAdvanced Combustion Engine TechnologiesHeat transfer and supercritical fluidsCombustion and flame dynamics
Numerical study of a cold start at the ambient temperature of 243 K on methanol engine with coolant heating | Litcius