SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2935821479> ?p ?o ?g. }

Showing items 1 to 100 of ±115 with 100 items per page.

W2935821479 endingPage "315" @default.
W2935821479 startingPage "295" @default.
W2935821479 abstract "Introduction of ever more stringent emission regulations on internal combustion engines beyond 2020 makes it necessary for original equipment manufacturers to find cost-effective solutions to improve the combustion engine efficiency and decrease its emissions. Highly efficient combustion engines can benefit from technologies such as cooled external exhaust gas recalculation and water injection. Among these technologies water injection can be used as a promising method to mitigate knock and significantly reduce the CO 2 emissions. This is particularly important in highly downsized boosted engines which run under much higher intake pressures and are more prone to knocking combustion. In addition to anti-knock behaviour, water injection is also an effective method for reducing NO x emissions and exhaust gas temperature at high loads, which can protect the turbine in turbocharged engines. This study shows the influence of intake port injection of water on efficiency and emissions of a boosted downsized single-cylinder gasoline direct-injection engine in detail. Six different steady-state speed and load combinations were selected to represent the conditions that knocking combustion start to occur. Water ratio sweep tests were performed to find out the optimum water/fuel ratio at each test point and the impact on the combustion and emissions. In addition to gaseous emissions, impact of water injection on particle emissions was also investigated in this study. The results show the net indicated efficiency improved significantly (by a maximum of around 5% at medium load and around 15% at high load) up to a maximum level by increasing the injected water mass. Improvement in efficiency was mainly due to the increased heat capacity of charge and cooling effect of the injected water evaporation which reduced the in-cylinder temperature and pressure. Thus, knock sensitivity was reduced and more advanced spark timings could be used, which shifted the combustion phasing closer to the optimum point. However, increasing the water/fuel ratio further (more than 1 at medium load and more than 1.5 at high load) deteriorated the combustion efficiency, prolonged the flame development angle and combustion duration, and caused a reduction in the net integrated area of the P-V diagram. Efficiency improvements were lower at higher engine speed (3000 r/min) as the knock sensitivity was already reduced intrinsically. In terms of other, harmful, non-CO 2 emissions, water injection was effective in reducing the NO x emissions significantly (by a maximum of around 60%) but increased the HC emissions as the water/fuel ratio increased. The results also show a significant reduction in particle emissions by adding water to the mixture and advancing the spark timing at medium and high loads. In addition, water injection also reduced the exhaust gas temperature by around 80°C and 180°C at medium and high loads, respectively." @default.
W2935821479 created "2019-04-25" @default.
W2935821479 creator A5004060841 @default.
W2935821479 creator A5026584566 @default.
W2935821479 creator A5026593367 @default.
W2935821479 creator A5069266975 @default.
W2935821479 creator A5077483163 @default.
W2935821479 creator A5080890769 @default.
W2935821479 date "2019-04-08" @default.
W2935821479 modified "2023-10-18" @default.
W2935821479 title "Impact of intake port injection of water on boosted downsized gasoline direct injection engine combustion, efficiency and emissions" @default.
W2935821479 cites W1489750665 @default.
W2935821479 cites W1967354540 @default.
W2935821479 cites W1980587529 @default.
W2935821479 cites W2001008046 @default.
W2935821479 cites W2006328608 @default.
W2935821479 cites W2018497666 @default.
W2935821479 cites W2025262442 @default.
W2935821479 cites W2049299980 @default.
W2935821479 cites W2082015786 @default.
W2935821479 cites W2094936781 @default.
W2935821479 cites W2102922983 @default.
W2935821479 cites W2220736046 @default.
W2935821479 cites W2227104181 @default.
W2935821479 cites W2280373131 @default.
W2935821479 cites W2288481717 @default.
W2935821479 cites W2298367947 @default.
W2935821479 cites W2347118449 @default.
W2935821479 cites W2499433035 @default.
W2935821479 cites W2587755621 @default.
W2935821479 cites W2594351940 @default.
W2935821479 cites W2620267692 @default.
W2935821479 cites W2623863944 @default.
W2935821479 cites W2808052846 @default.
W2935821479 cites W3189356761 @default.
W2935821479 cites W3190220180 @default.
W2935821479 cites W3187915966 @default.
W2935821479 doi "https://doi.org/10.1177/1468087419832791" @default.
W2935821479 hasPublicationYear "2019" @default.
W2935821479 type Work @default.
W2935821479 sameAs 2935821479 @default.
W2935821479 citedByCount "24" @default.
W2935821479 countsByYear W29358214792019 @default.
W2935821479 countsByYear W29358214792020 @default.
W2935821479 countsByYear W29358214792021 @default.
W2935821479 countsByYear W29358214792022 @default.
W2935821479 countsByYear W29358214792023 @default.
W2935821479 crossrefType "journal-article" @default.
W2935821479 hasAuthorship W2935821479A5004060841 @default.
W2935821479 hasAuthorship W2935821479A5026584566 @default.
W2935821479 hasAuthorship W2935821479A5026593367 @default.
W2935821479 hasAuthorship W2935821479A5069266975 @default.
W2935821479 hasAuthorship W2935821479A5077483163 @default.
W2935821479 hasAuthorship W2935821479A5080890769 @default.
W2935821479 hasConcept C103206924 @default.
W2935821479 hasConcept C103697071 @default.
W2935821479 hasConcept C105923489 @default.
W2935821479 hasConcept C127413603 @default.
W2935821479 hasConcept C163011139 @default.
W2935821479 hasConcept C171146098 @default.
W2935821479 hasConcept C17623918 @default.
W2935821479 hasConcept C178790620 @default.
W2935821479 hasConcept C185592680 @default.
W2935821479 hasConcept C21541133 @default.
W2935821479 hasConcept C2776595511 @default.
W2935821479 hasConcept C2778059233 @default.
W2935821479 hasConcept C2778449969 @default.
W2935821479 hasConcept C39432304 @default.
W2935821479 hasConcept C39573554 @default.
W2935821479 hasConcept C511840579 @default.
W2935821479 hasConcept C548081761 @default.
W2935821479 hasConcept C78519656 @default.
W2935821479 hasConcept C78762247 @default.
W2935821479 hasConcept C87717796 @default.
W2935821479 hasConceptScore W2935821479C103206924 @default.
W2935821479 hasConceptScore W2935821479C103697071 @default.
W2935821479 hasConceptScore W2935821479C105923489 @default.
W2935821479 hasConceptScore W2935821479C127413603 @default.
W2935821479 hasConceptScore W2935821479C163011139 @default.
W2935821479 hasConceptScore W2935821479C171146098 @default.
W2935821479 hasConceptScore W2935821479C17623918 @default.
W2935821479 hasConceptScore W2935821479C178790620 @default.
W2935821479 hasConceptScore W2935821479C185592680 @default.
W2935821479 hasConceptScore W2935821479C21541133 @default.
W2935821479 hasConceptScore W2935821479C2776595511 @default.
W2935821479 hasConceptScore W2935821479C2778059233 @default.
W2935821479 hasConceptScore W2935821479C2778449969 @default.
W2935821479 hasConceptScore W2935821479C39432304 @default.
W2935821479 hasConceptScore W2935821479C39573554 @default.
W2935821479 hasConceptScore W2935821479C511840579 @default.
W2935821479 hasConceptScore W2935821479C548081761 @default.
W2935821479 hasConceptScore W2935821479C78519656 @default.
W2935821479 hasConceptScore W2935821479C78762247 @default.
W2935821479 hasConceptScore W2935821479C87717796 @default.
W2935821479 hasIssue "1" @default.
W2935821479 hasLocation W29358214791 @default.
W2935821479 hasOpenAccess W2935821479 @default.
W2935821479 hasPrimaryLocation W29358214791 @default.