SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2150835070> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W2150835070 endingPage "841" @default.
W2150835070 startingPage "833" @default.
W2150835070 abstract "Future aviation, shipping and heavy load transportation will continue to depend on energy carriers with a high energy density. The Power-to-Liquid technology is an approach to produce synthetic hydrocarbons, which fulfill this requirement. The proposed concept is based on H2 from electrolysis, which reacts with CO2 via the reverse water-gas shift reaction to syngas. Syngas is then synthesized to liquid hydrocarbons by Fischer-Tropsch synthesis. A downstream product separation and upgrading section allows the production of defined fractions for specific applications. A flowsheet process model is build and heat integration is conducted. The input capacity is set to 100 MWLHV of H2. A total amount of 1260 bbl/d liquid hydrocarbons (67.1 MWLHV) is generated. The carbon conversion and the Power-to-Liquid efficiency, which is defined as the fraction of the electrical energy chemically bound into liquid hydrocarbons, are identified as the parameters to evaluate the overall process performance. The Power-to-Liquid efficiency is found to be 43.3%. The carbon conversion rate of 73.7% indicates the exploiting of the introduced CO2." @default.
W2150835070 created "2016-06-24" @default.
W2150835070 creator A5043187210 @default.
W2150835070 creator A5047651473 @default.
W2150835070 creator A5085977727 @default.
W2150835070 creator A5087781856 @default.
W2150835070 date "2015-11-01" @default.
W2150835070 modified "2023-10-05" @default.
W2150835070 title "Simulation and evaluation of a process concept for the generation of synthetic fuel from CO2 and H2" @default.
W2150835070 cites W1964374857 @default.
W2150835070 cites W1970084818 @default.
W2150835070 cites W1977423968 @default.
W2150835070 cites W1981188796 @default.
W2150835070 cites W1984601920 @default.
W2150835070 cites W1991975309 @default.
W2150835070 cites W1992601541 @default.
W2150835070 cites W1992688442 @default.
W2150835070 cites W1993830163 @default.
W2150835070 cites W1994555595 @default.
W2150835070 cites W2005671113 @default.
W2150835070 cites W2006962612 @default.
W2150835070 cites W2008506949 @default.
W2150835070 cites W2011821078 @default.
W2150835070 cites W2016764567 @default.
W2150835070 cites W2019532240 @default.
W2150835070 cites W2020007931 @default.
W2150835070 cites W2028269902 @default.
W2150835070 cites W2029200877 @default.
W2150835070 cites W2033283500 @default.
W2150835070 cites W2033470700 @default.
W2150835070 cites W2043112002 @default.
W2150835070 cites W2047143782 @default.
W2150835070 cites W2053440469 @default.
W2150835070 cites W2053892306 @default.
W2150835070 cites W2058117593 @default.
W2150835070 cites W2061723560 @default.
W2150835070 cites W2065658670 @default.
W2150835070 cites W2068262973 @default.
W2150835070 cites W2070510804 @default.
W2150835070 cites W2074555439 @default.
W2150835070 cites W2077489579 @default.
W2150835070 cites W2081670141 @default.
W2150835070 cites W2091156432 @default.
W2150835070 cites W2112686921 @default.
W2150835070 cites W2129288307 @default.
W2150835070 cites W2141642791 @default.
W2150835070 cites W2151966270 @default.
W2150835070 cites W2155300939 @default.
W2150835070 cites W2174339326 @default.
W2150835070 cites W2506677948 @default.
W2150835070 cites W2795507883 @default.
W2150835070 cites W2922099043 @default.
W2150835070 cites W343517151 @default.
W2150835070 cites W4251209579 @default.
W2150835070 doi "https://doi.org/10.1016/j.energy.2015.08.099" @default.
W2150835070 hasPublicationYear "2015" @default.
W2150835070 type Work @default.
W2150835070 sameAs 2150835070 @default.
W2150835070 citedByCount "80" @default.
W2150835070 countsByYear W21508350702016 @default.
W2150835070 countsByYear W21508350702017 @default.
W2150835070 countsByYear W21508350702018 @default.
W2150835070 countsByYear W21508350702019 @default.
W2150835070 countsByYear W21508350702020 @default.
W2150835070 countsByYear W21508350702021 @default.
W2150835070 countsByYear W21508350702022 @default.
W2150835070 countsByYear W21508350702023 @default.
W2150835070 crossrefType "journal-article" @default.
W2150835070 hasAuthorship W2150835070A5043187210 @default.
W2150835070 hasAuthorship W2150835070A5047651473 @default.
W2150835070 hasAuthorship W2150835070A5085977727 @default.
W2150835070 hasAuthorship W2150835070A5087781856 @default.
W2150835070 hasBestOaLocation W21508350702 @default.
W2150835070 hasConcept C105923489 @default.
W2150835070 hasConcept C111919701 @default.
W2150835070 hasConcept C118792377 @default.
W2150835070 hasConcept C121332964 @default.
W2150835070 hasConcept C127413603 @default.
W2150835070 hasConcept C147789679 @default.
W2150835070 hasConcept C149629883 @default.
W2150835070 hasConcept C161790260 @default.
W2150835070 hasConcept C163127949 @default.
W2150835070 hasConcept C163258240 @default.
W2150835070 hasConcept C17525397 @default.
W2150835070 hasConcept C178790620 @default.
W2150835070 hasConcept C17893864 @default.
W2150835070 hasConcept C185592680 @default.
W2150835070 hasConcept C194439259 @default.
W2150835070 hasConcept C202417442 @default.
W2150835070 hasConcept C21880701 @default.
W2150835070 hasConcept C2779985886 @default.
W2150835070 hasConcept C39432304 @default.
W2150835070 hasConcept C41008148 @default.
W2150835070 hasConcept C423512 @default.
W2150835070 hasConcept C42360764 @default.
W2150835070 hasConcept C512968161 @default.
W2150835070 hasConcept C54725748 @default.
W2150835070 hasConcept C548081761 @default.