FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2344480107> ?p ?o ?g. }

• W2344480107 endingPage "90" @default.
• W2344480107 startingPage "81" @default.
• W2344480107 abstract "Chemical looping combustion is a novel flameless combustion, where the conventional combustion is divided into reducer and oxidizer with assistance of the oxygen carrier. Due to its instinctive CO2 separation, high efficient and environmental-friendly property, chemical looping combustion attains more concerns. Large-scale experimental unit is a vital to chemical looping combustion, especially the commercial development. The reactor configuration of the worldwide pilot units are fluidized bed or moving bed, and the pilot unit with packed bed has not been reported. In this study, the pilot scale chemical looping packed bed unit with a nominal thermal capacity of 30 kWth is designed on the basis of previous laboratory scale investigation. The pilot unit includes four parts, which is gas system, reaction system, tail gas treatment and gas analysis system, and auxiliary electrical system. The pilot packed bed reactor is made from 310s stainless steel tube with a 0.089 m o.d., a 0.079 m i.d., and 2.0 m height. A K-type thermocouple with 13 measurement points is located at the center of the packed bed reactor to obtain the axial temperature profile. The packed bed chemical looping platform is constructed to demonstrate the feasibility of generating high purity hydrogen from syngas derived from biomass wastes with on-site carbon capture. Two testing runs were presented using 5 mm × 4-6 mm cylindrical oxygen carriers comprising of 50 wt % iron oxide (Fe2O3). The pure CO and the mixture of CO and H2 with a flow of 15 SLPM are the fuels of the two tests. The first test resulted in a full CO conversion with a 25.0% conversion of the oxygen carriers during reduction, the production of 3.82 mol hydrogen with an average purity of 98.0%, and the maximum temperature rise is 219 K during air combustion. The second test leaded to a full fuel conversion with a 35.7% conversion of the oxygen carriers during reduction, the production of 4.67 mol hydrogen with an average purity of 98.0%, and the maximum temperature rise is 290 K during air combustion. The two testing runs, the first operation of packed bed chemical looping pilot unit, supported syngas-based chemical looping application for hydrogen and power co-generation with in suit carbon capture and also demonstrated the design of the 30 kWth pilot chemical looping platform with packed bed reactor." @default.
• W2344480107 created "2016-06-24" @default.
• W2344480107 creator A5012761177 @default.
• W2344480107 creator A5013555536 @default.
• W2344480107 creator A5040344438 @default.
• W2344480107 creator A5051439506 @default.
• W2344480107 creator A5060503383 @default.
• W2344480107 creator A5090099469 @default.
• W2344480107 date "2016-01-01" @default.
• W2344480107 modified "2023-10-08" @default.
• W2344480107 title "Packed Bed Chemical Looping Platform: Design and Operation of 30kWth Pilot Unit" @default.
• W2344480107 cites W1964116070 @default.
• W2344480107 cites W1980070811 @default.
• W2344480107 cites W1983857557 @default.
• W2344480107 cites W1987415646 @default.
• W2344480107 cites W1993456757 @default.
• W2344480107 cites W1996787865 @default.
• W2344480107 cites W2008553369 @default.
• W2344480107 cites W2013614796 @default.
• W2344480107 cites W2033366420 @default.
• W2344480107 cites W2039582257 @default.
• W2344480107 cites W2043023719 @default.
• W2344480107 cites W2061711425 @default.
• W2344480107 cites W2070056656 @default.
• W2344480107 cites W2078482624 @default.
• W2344480107 cites W2082162055 @default.
• W2344480107 cites W2257530263 @default.
• W2344480107 cites W2323787104 @default.
• W2344480107 doi "https://doi.org/10.1016/j.proenv.2016.02.011" @default.
• W2344480107 hasPublicationYear "2016" @default.
• W2344480107 type Work @default.
• W2344480107 sameAs 2344480107 @default.
• W2344480107 citedByCount "6" @default.
• W2344480107 countsByYear W23444801072017 @default.
• W2344480107 countsByYear W23444801072018 @default.
• W2344480107 countsByYear W23444801072020 @default.
• W2344480107 countsByYear W23444801072021 @default.
• W2344480107 countsByYear W23444801072022 @default.
• W2344480107 crossrefType "journal-article" @default.
• W2344480107 hasAuthorship W2344480107A5012761177 @default.
• W2344480107 hasAuthorship W2344480107A5013555536 @default.
• W2344480107 hasAuthorship W2344480107A5040344438 @default.
• W2344480107 hasAuthorship W2344480107A5051439506 @default.
• W2344480107 hasAuthorship W2344480107A5060503383 @default.
• W2344480107 hasAuthorship W2344480107A5090099469 @default.
• W2344480107 hasBestOaLocation W23444801071 @default.
• W2344480107 hasConcept C105923489 @default.
• W2344480107 hasConcept C116915560 @default.
• W2344480107 hasConcept C127413603 @default.
• W2344480107 hasConcept C158089330 @default.
• W2344480107 hasConcept C172331833 @default.
• W2344480107 hasConcept C178790620 @default.
• W2344480107 hasConcept C185592680 @default.
• W2344480107 hasConcept C192562407 @default.
• W2344480107 hasConcept C194439259 @default.
• W2344480107 hasConcept C2084832 @default.
• W2344480107 hasConcept C2776985865 @default.
• W2344480107 hasConcept C39432304 @default.
• W2344480107 hasConcept C42360764 @default.
• W2344480107 hasConcept C512968161 @default.
• W2344480107 hasConcept C548081761 @default.
• W2344480107 hasConcept C59269787 @default.
• W2344480107 hasConcept C78519656 @default.
• W2344480107 hasConceptScore W2344480107C105923489 @default.
• W2344480107 hasConceptScore W2344480107C116915560 @default.
• W2344480107 hasConceptScore W2344480107C127413603 @default.
• W2344480107 hasConceptScore W2344480107C158089330 @default.
• W2344480107 hasConceptScore W2344480107C172331833 @default.
• W2344480107 hasConceptScore W2344480107C178790620 @default.
• W2344480107 hasConceptScore W2344480107C185592680 @default.
• W2344480107 hasConceptScore W2344480107C192562407 @default.
• W2344480107 hasConceptScore W2344480107C194439259 @default.
• W2344480107 hasConceptScore W2344480107C2084832 @default.
• W2344480107 hasConceptScore W2344480107C2776985865 @default.
• W2344480107 hasConceptScore W2344480107C39432304 @default.
• W2344480107 hasConceptScore W2344480107C42360764 @default.
• W2344480107 hasConceptScore W2344480107C512968161 @default.
• W2344480107 hasConceptScore W2344480107C548081761 @default.
• W2344480107 hasConceptScore W2344480107C59269787 @default.
• W2344480107 hasConceptScore W2344480107C78519656 @default.
• W2344480107 hasLocation W23444801071 @default.
• W2344480107 hasOpenAccess W2344480107 @default.
• W2344480107 hasPrimaryLocation W23444801071 @default.
• W2344480107 hasRelatedWork W1970639877 @default.
• W2344480107 hasRelatedWork W1978436175 @default.
• W2344480107 hasRelatedWork W2041947371 @default.
• W2344480107 hasRelatedWork W2091877162 @default.
• W2344480107 hasRelatedWork W2136403058 @default.
• W2344480107 hasRelatedWork W3102565026 @default.
• W2344480107 hasRelatedWork W3104216215 @default.
• W2344480107 hasRelatedWork W3135940315 @default.
• W2344480107 hasRelatedWork W4250956940 @default.
• W2344480107 hasRelatedWork W4255565491 @default.
• W2344480107 hasVolume "31" @default.
• W2344480107 isParatext "false" @default.
• W2344480107 isRetracted "false" @default.
• W2344480107 magId "2344480107" @default.
• W2344480107 workType "article" @default.