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Performance and emissions characteristics in the combustion of co-fuel diesel-hydrogen in a heavy duty engine

S. Mohammad Hosseini and Rouhollah Ahmadi

Applied Energy, 2017, vol. 205, issue C, 925 pages

Abstract: Owing to the adverse environmental impacts of fossil fuel consumption, a lot of research has been conducted to select alternative sustainable fuel sources with lower emissions. Hydrogen is one of the promising alternative fuels; it is because of its similarity of combustion characteristics to fossil fuels and the fact that it is clean and located in the renewable fuels category. In this paper, the combustion of co-fuel diesel-hydrogen in a heavy duty engine at full load and at speeds of 1600rpm is simulated. All parameters such as engine speed, spray angle, injection time and input energy have been presumed constant, and variable parameters are the ratio of hydrogen to diesel per mass or energy. In the case of replacement and addition of hydrogen, hydrogen energy is changed from 0% (pure diesel) to 70% in comparison to the input energy of diesel. In the case of replacement of hydrogen instead of input diesel energy fraction, the simulation results indicate that in its best case, emissions of NOX, unburned hydrocarbons, soot, CO and CO2 are reduced by 8%, 54%, 14%, 70%, 2.8% and 14%, respectively. Meanwhile, concerning addition of hydrogen asa fuel excess, the emission of unburned hydrocarbons, soot, CO and CO2 in the best case diminish at a rate of 69%, 9.5%, 17% and 8%, respectively; while NOX emissions and indicator power increase as 2% and 8%, respectively. It is revealed that replacement and addition of hydrogen to the combustion chamber results in a delay in the ignition, growth in the rate of pressure rise and an increase of heat releasing. It should be noted that this pressure rise will not cause knocking in the hydrogen replacement case; however, when 54% and 70% hydrogen is added to diesel, knocking phenomenon takes place in the engine.

Keywords: Diesel engine combustion; Hydrogen; Emissions; Simulation; Engine performance; Alternative fuel; Knocking (search for similar items in EconPapers)
Date: 2017
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (9)

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DOI: 10.1016/j.apenergy.2017.08.044

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