FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3119542927> ?p ?o ?g. }

• W3119542927 endingPage "1507" @default.
• W3119542927 startingPage "1495" @default.
• W3119542927 abstract "<div class=section abstract><div class=htmlview paragraph>In this work, a high temperature (HT) homogeneous charge compression ignition (HCCI) critical compression ratio (cCR) was defined as the compression ratio which resulted in HCCI combustion with a crank angle location of 50% fuel burned (CA50) of 3.0 degrees after top dead center (aTDC) while operating at an equivalence ratio of 0.33 (λ = 3), an intake pressure of 1.0 bar (naturally aspirated), an intake temperature of 473 K (200°C), and an engine speed of 600 rpm. Using a Cooperative Fuel Research engine, the HT HCCI cCR of seven alcohol fuels were experimentally determined and found to be ordered as follows (ordered from least reactive to most reactive): isopropanol &gt; sec-butanol &gt; methanol ≈ ethanol ≈ n-propanol ≈ isobutanol &gt; n-butanol. The HT HCCI cCR for the alcohol fuels correlated well with experimental HCCI data from a modern gasoline direct injection (GDI) engine architecture with a pent-roof head and a rebreathe valvetrain. The HT HCCI cCR was also correlated with available cetane number (CN), motor octane number (MON), and research octane number (RON) values found in the literature. The coefficient of determination (R²) for these correlations was 0.02, 0.95, and 0.69, respectively. When the RON values were modified to account for the high cooling potential of the alcohol fuels, the R² increased from 0.69 to 0.96. When a wider array of other fuels were considered, including pure components of different fuel classes, pure-component fuel blends, and gasoline fuel blends, the critical compression ratio no longer correlated well with MON or HOV-modified RON. It was concluded that when fuels of a similar fuel class are considered, such as neat C1-C4 alcohols, MON or an HOV-modified RON may be sufficient to compare the HCCI reactivity of the fuels at MON-like cylinder conditions. However, due to the complex nature of the octane number tests, the HCCI ignition propensity is not well predicted by the standard octane numbers when fuels of varying chemical characteristics and combustion chemistry attributes are considered. Therefore, a metric for characterizing gasoline-like fuels under compression ignition conditions is required, such as an HCCI test method on the CFR octane rating engine.</div></div>" @default.
• W3119542927 created "2021-01-18" @default.
• W3119542927 creator A5006337712 @default.
• W3119542927 creator A5008254663 @default.
• W3119542927 creator A5014824574 @default.
• W3119542927 creator A5025639602 @default.
• W3119542927 creator A5088478905 @default.
• W3119542927 date "2021-04-06" @default.
• W3119542927 modified "2023-09-25" @default.
• W3119542927 title "High Temperature HCCI Critical Compression Ratio of the C1-C4 Alcohol Fuels" @default.
• W3119542927 cites W1483239760 @default.
• W3119542927 cites W1499331798 @default.
• W3119542927 cites W1529844860 @default.
• W3119542927 cites W1545300146 @default.
• W3119542927 cites W1558344760 @default.
• W3119542927 cites W1578052198 @default.
• W3119542927 cites W1888997914 @default.
• W3119542927 cites W1966218554 @default.
• W3119542927 cites W1973201167 @default.
• W3119542927 cites W1995467410 @default.
• W3119542927 cites W2028180987 @default.
• W3119542927 cites W2031082664 @default.
• W3119542927 cites W2033356767 @default.
• W3119542927 cites W2049472898 @default.
• W3119542927 cites W2056621019 @default.
• W3119542927 cites W2063807605 @default.
• W3119542927 cites W2064723738 @default.
• W3119542927 cites W2075053397 @default.
• W3119542927 cites W2157509187 @default.
• W3119542927 cites W2169989540 @default.
• W3119542927 cites W2224256471 @default.
• W3119542927 cites W2268575743 @default.
• W3119542927 cites W2283461276 @default.
• W3119542927 cites W2329707401 @default.
• W3119542927 cites W2335250551 @default.
• W3119542927 cites W2461973827 @default.
• W3119542927 cites W2566399210 @default.
• W3119542927 cites W2571407906 @default.
• W3119542927 cites W2622119041 @default.
• W3119542927 cites W2796068014 @default.
• W3119542927 cites W2901264800 @default.
• W3119542927 cites W2927157338 @default.
• W3119542927 cites W2950029977 @default.
• W3119542927 cites W2971563042 @default.
• W3119542927 cites W3002947465 @default.
• W3119542927 cites W3049218026 @default.
• W3119542927 cites W3119651045 @default.
• W3119542927 cites W4237967959 @default.
• W3119542927 doi "https://doi.org/10.4271/2021-01-0511" @default.
• W3119542927 hasPublicationYear "2021" @default.
• W3119542927 type Work @default.
• W3119542927 sameAs 3119542927 @default.
• W3119542927 citedByCount "0" @default.
• W3119542927 crossrefType "journal-article" @default.
• W3119542927 hasAuthorship W3119542927A5006337712 @default.
• W3119542927 hasAuthorship W3119542927A5008254663 @default.
• W3119542927 hasAuthorship W3119542927A5014824574 @default.
• W3119542927 hasAuthorship W3119542927A5025639602 @default.
• W3119542927 hasAuthorship W3119542927A5088478905 @default.
• W3119542927 hasConcept C103697071 @default.
• W3119542927 hasConcept C105923489 @default.
• W3119542927 hasConcept C106169591 @default.
• W3119542927 hasConcept C121332964 @default.
• W3119542927 hasConcept C161790260 @default.
• W3119542927 hasConcept C163721339 @default.
• W3119542927 hasConcept C178790620 @default.
• W3119542927 hasConcept C185592680 @default.
• W3119542927 hasConcept C192562407 @default.
• W3119542927 hasConcept C2777713963 @default.
• W3119542927 hasConcept C2780021418 @default.
• W3119542927 hasConcept C2780161600 @default.
• W3119542927 hasConcept C52896960 @default.
• W3119542927 hasConcept C55062507 @default.
• W3119542927 hasConcept C96949565 @default.
• W3119542927 hasConcept C97355855 @default.
• W3119542927 hasConceptScore W3119542927C103697071 @default.
• W3119542927 hasConceptScore W3119542927C105923489 @default.
• W3119542927 hasConceptScore W3119542927C106169591 @default.
• W3119542927 hasConceptScore W3119542927C121332964 @default.
• W3119542927 hasConceptScore W3119542927C161790260 @default.
• W3119542927 hasConceptScore W3119542927C163721339 @default.
• W3119542927 hasConceptScore W3119542927C178790620 @default.
• W3119542927 hasConceptScore W3119542927C185592680 @default.
• W3119542927 hasConceptScore W3119542927C192562407 @default.
• W3119542927 hasConceptScore W3119542927C2777713963 @default.
• W3119542927 hasConceptScore W3119542927C2780021418 @default.
• W3119542927 hasConceptScore W3119542927C2780161600 @default.
• W3119542927 hasConceptScore W3119542927C52896960 @default.
• W3119542927 hasConceptScore W3119542927C55062507 @default.
• W3119542927 hasConceptScore W3119542927C96949565 @default.
• W3119542927 hasConceptScore W3119542927C97355855 @default.
• W3119542927 hasIssue "4" @default.
• W3119542927 hasLocation W31195429271 @default.
• W3119542927 hasOpenAccess W3119542927 @default.
• W3119542927 hasPrimaryLocation W31195429271 @default.
• W3119542927 hasRelatedWork W2051886914 @default.
• W3119542927 hasRelatedWork W2052321132 @default.
• W3119542927 hasRelatedWork W2071263039 @default.

• next