2022
DOI: 10.1016/j.apenergy.2022.119979
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Enhancement of the performance and emissions reduction of a hydroxygen-blended gasoline engine using different catalysts

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Cited by 8 publications
(2 citation statements)
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“…Data collected from the machine at different speeds (1,000 rpm to 1,500 rpm) and load conditions with various concentrations of KOH electrolyte solution to measure the HHO production rate. Fuel consumption, exhaust emissions, and other data are also measured to compare normal operation and hydrogen addition to the combustion chamber (Hassan et al, 2022). The experiment uses data related to the production of HHO gas using alkaline water electrolysis.…”
Section: Hho Gas Production Methodsmentioning
confidence: 99%
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“…Data collected from the machine at different speeds (1,000 rpm to 1,500 rpm) and load conditions with various concentrations of KOH electrolyte solution to measure the HHO production rate. Fuel consumption, exhaust emissions, and other data are also measured to compare normal operation and hydrogen addition to the combustion chamber (Hassan et al, 2022). The experiment uses data related to the production of HHO gas using alkaline water electrolysis.…”
Section: Hho Gas Production Methodsmentioning
confidence: 99%
“…In addition, engine performance and emissions were taken into account when evaluating the results from this experiment (Yusof SNA et al, 2022). The rate of HHO production increases with increasing concentration of the electrolyzing solution (Hassan et al, 2022). CO and HC emissions were reduced by 91.7% and 34.84%, respectively, due to the addition of HHO to a higher concentration of KOH electrolyte solution (10 g/L).…”
Section: Hho Gas Production Methodsmentioning
confidence: 99%