SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3088298081> ?p ?o ?g. }

Showing items 1 to 100 of ±175 with 100 items per page.

W3088298081 endingPage "119210" @default.
W3088298081 startingPage "119210" @default.
W3088298081 abstract "Under the stress of environmental pollutions and fossil fuel consumption caused by on-road transport, hybrid vehicles are attracting much attention. Opposed rotary piston (ORP) engines are a promising power source for hybrid vehicles, due to their compact designs and high power density. In this paper, combustion and emission characteristics of a turbocharged ORP engine fuelled with hydrogen were investigated to evaluate the overall performance of this engine. The results indicated that volumetric efficiency of this ORP engine was higher than 89.0% for all the given cases. Peak in-cylinder pressure was in the range of 51.0 ~ 69.0 bar; and 4000 RPM scenario had the maximum value, being benefitted from high intake temperature and pressure, and high volumetric efficiency. Combustion duration of this engine ranged 27 ~ 43° crank angle (CA), and combustion phase happened at 7.5 ~ 13°CA after top dead centre (TDC). Peak nitrogen monoxide (NO) formation rates were corresponding to 5 ~ 13°CA after TDC; accumulated NO decreased slightly after reaching the peak value for low engine speed conditions. Discharge pressure at the start of the exhaust stroke was higher than 6.0 bar, especially for 5000 RPM case whose value was approximately 11.0 bar. This ORP engine presented excellent torque characteristics, and the maximum indicated power density was approximately 104.0 kW·L−1 which was much higher than turbocharged four-stroke reciprocating engines fuelled with gasoline." @default.
W3088298081 created "2020-10-01" @default.
W3088298081 creator A5037331514 @default.
W3088298081 creator A5044623144 @default.
W3088298081 creator A5051411208 @default.
W3088298081 creator A5062050516 @default.
W3088298081 creator A5063334710 @default.
W3088298081 creator A5091812638 @default.
W3088298081 date "2021-02-01" @default.
W3088298081 modified "2023-10-16" @default.
W3088298081 title "Numerical simulation on the combustion and NOx emission characteristics of a turbocharged opposed rotary piston engine fuelled with hydrogen under wide open throttle conditions" @default.
W3088298081 cites W1570094264 @default.
W3088298081 cites W1572958387 @default.
W3088298081 cites W157786643 @default.
W3088298081 cites W1964435820 @default.
W3088298081 cites W1965009362 @default.
W3088298081 cites W1972320358 @default.
W3088298081 cites W1981547040 @default.
W3088298081 cites W1987026486 @default.
W3088298081 cites W1988298839 @default.
W3088298081 cites W1992038525 @default.
W3088298081 cites W1994939409 @default.
W3088298081 cites W2015987841 @default.
W3088298081 cites W2029350883 @default.
W3088298081 cites W2033983335 @default.
W3088298081 cites W2034043539 @default.
W3088298081 cites W2047286863 @default.
W3088298081 cites W2047964990 @default.
W3088298081 cites W2051261364 @default.
W3088298081 cites W2059986947 @default.
W3088298081 cites W2060316903 @default.
W3088298081 cites W2076768428 @default.
W3088298081 cites W2085643299 @default.
W3088298081 cites W2086028519 @default.
W3088298081 cites W2091616824 @default.
W3088298081 cites W2133437921 @default.
W3088298081 cites W2182552432 @default.
W3088298081 cites W2224451702 @default.
W3088298081 cites W2232069922 @default.
W3088298081 cites W2286777493 @default.
W3088298081 cites W2287159925 @default.
W3088298081 cites W2340426655 @default.
W3088298081 cites W2358091537 @default.
W3088298081 cites W2411698947 @default.
W3088298081 cites W2423876706 @default.
W3088298081 cites W2424691316 @default.
W3088298081 cites W2475701287 @default.
W3088298081 cites W2488513460 @default.
W3088298081 cites W2585216990 @default.
W3088298081 cites W2744645596 @default.
W3088298081 cites W2762481817 @default.
W3088298081 cites W2774996423 @default.
W3088298081 cites W2779377524 @default.
W3088298081 cites W2790892402 @default.
W3088298081 cites W2796079343 @default.
W3088298081 cites W2892258530 @default.
W3088298081 cites W2896336674 @default.
W3088298081 cites W2897743800 @default.
W3088298081 cites W2899438389 @default.
W3088298081 cites W2904332227 @default.
W3088298081 cites W2912592491 @default.
W3088298081 cites W2916866574 @default.
W3088298081 cites W2919627841 @default.
W3088298081 cites W2936434340 @default.
W3088298081 cites W2937884619 @default.
W3088298081 cites W2945992371 @default.
W3088298081 cites W2961509691 @default.
W3088298081 cites W2980456774 @default.
W3088298081 cites W2982647066 @default.
W3088298081 cites W2983653998 @default.
W3088298081 cites W2988771577 @default.
W3088298081 cites W3002213433 @default.
W3088298081 cites W3008760049 @default.
W3088298081 cites W3012287368 @default.
W3088298081 cites W3024323624 @default.
W3088298081 cites W3041908263 @default.
W3088298081 cites W849472697 @default.
W3088298081 doi "https://doi.org/10.1016/j.fuel.2020.119210" @default.
W3088298081 hasPublicationYear "2021" @default.
W3088298081 type Work @default.
W3088298081 sameAs 3088298081 @default.
W3088298081 citedByCount "52" @default.
W3088298081 countsByYear W30882980812021 @default.
W3088298081 countsByYear W30882980812022 @default.
W3088298081 countsByYear W30882980812023 @default.
W3088298081 crossrefType "journal-article" @default.
W3088298081 hasAuthorship W3088298081A5037331514 @default.
W3088298081 hasAuthorship W3088298081A5044623144 @default.
W3088298081 hasAuthorship W3088298081A5051411208 @default.
W3088298081 hasAuthorship W3088298081A5062050516 @default.
W3088298081 hasAuthorship W3088298081A5063334710 @default.
W3088298081 hasAuthorship W3088298081A5091812638 @default.
W3088298081 hasBestOaLocation W30882980812 @default.
W3088298081 hasConcept C103697071 @default.
W3088298081 hasConcept C105923489 @default.
W3088298081 hasConcept C106169591 @default.
W3088298081 hasConcept C120665830 @default.
W3088298081 hasConcept C121332964 @default.