A Mathematical Model for the Exhaust Gas Temperature Profile of a Diesel Engine
Author:
Publisher
IOP Publishing
Subject
General Physics and Astronomy
Link
http://stacks.iop.org/1742-6596/633/i=1/a=012075/pdf
Reference13 articles.
1. Compression ignition engine performance and emission evaluation of industrial oilseed biofuel feedstocks camelina, carinata, and pennycress across three fuel pathways
2. The influence of the exhaust system unsteady gas flow and insulation on the performance of a turbocharged diesel engine
3. Model of Heat Exchangers for Waste Heat Recovery from Diesel Engine Exhaust for Thermoelectric Power Generation
4. Modeling of catalytic monolith reactor for reforming of hexadecane with exhaust gas
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1. Torque Prediction Model of a CI Engine for Agricultural Purposes Based on Exhaust Gas Temperatures and CFD-FVM Methodologies Validated with Experimental Tests;Applied Sciences;2021-04-25
2. Computational and experimental investigation on effective utilization of waste heat from diesel engine exhaust using a fin protracted heat exchanger;Energy;2020-06
3. Recovering waste heat from diesel generator exhaust; an opportunity for combined heat and power generation in remote Canadian mines;Journal of Cleaner Production;2019-07
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