Maryom Dabi scite author profile

Exergy analysis of the reciprocating internal combustion (IC) engines is studied by estimating various input and output energy transfer parameters concerning a dead state reference. Exergy terms such as fuel input, work output, cooling, and exhaust gas are measured and are set into the exergy balance equation to determine the amount of loss or destruction. Exergy destructions are found in many forms such as combustion (entropy generation), cylinder wall, friction, mixing, blow-by, and others. These exergy terms have been estimated by considering various factors such as engine type, fuel type, environmental condition, and others. In this article, the different methods employed in estimating these exergy terms have been reviewed. It attempts to make a compendium of these evaluation methods and segregates them under individual exergy terms with necessary descriptions. The fuel input measurement is mostly based on Gibb's free energy and the lower heating value, whereas its higher heating value is used during the fuel exergy calculation on a molar basis. The work output of the engines is estimated either from the crankshaft or by analyzing the cylinder pressure and volume. The exergy transfer with cooling medium and exhaust gas depends on the temperature of gas. The maximum achievable engine performance is quantified by estimating the exergy efficiency. This piece of study will not only provide a plenty of information on exergy evaluation methods of IC engines but will also allow the future researchers to adopt the appropriate one.

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Influence of ethanol on the performance, combustion and emission characteristics of a stationary diesel engine run on diesel–Mesua ferrea linn oil blend

Dabi

Saha

2020

Sādhanā

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Implications of blended Mesua ferrea Linn oil on performance, combustion and emissions of compression ignition diesel engines

Dabi

Saha

2020

Thermal Science and Engineering Progress

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Increase of efficiency and reduction of CO and NOx emissions in a stationary compression ignition engine run on Mesua ferrea Linn oil-diesel and diethyl ether

Dabi

Sahoo

Saha

2021

Thermal Science and Engineering Progress

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Maryom Dabi

Application potential of vegetable oils as alternative to diesel fuels in compression ignition engines: A review

A Compendium of Methods for Determining the Exergy Balance Terms Applied to Reciprocating Internal Combustion Engines

Influence of ethanol on the performance, combustion and emission characteristics of a stationary diesel engine run on diesel–Mesua ferrea linn oil blend

Implications of blended Mesua ferrea Linn oil on performance, combustion and emissions of compression ignition diesel engines

Increase of efficiency and reduction of CO and NOx emissions in a stationary compression ignition engine run on Mesua ferrea Linn oil-diesel and diethyl ether

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