FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2463978112> ?p ?o ?g. }

• W2463978112 endingPage "41" @default.
• W2463978112 startingPage "29" @default.
• W2463978112 abstract "The paper provides a performance analysis assessment of a novel solid oxide fuel cell (SOFC) liquid desiccant tri-generation system for building applications. The work presented serves to build upon the current literature related to experimental evaluations of SOFC tri-generation systems, particularly in domestic built environment applications. The proposed SOFC liquid desiccant tri-generation system will be the first-of-its-kind. No research activity is reported on the integration of SOFC, or any fuel cell, with liquid desiccant air conditioning in a tri-generation system configuration. The novel tri-generation system is suited to applications that require simultaneous electrical power, heating and dehumidification/cooling. There are several specific benefits to the integration of SOFC and liquid desiccant air conditioning technology, including; very high operational electrical efficiencies even at low system capacities and the ability to utilise low-grade thermal energy in a (useful) cooling process. Furthermore, the novel tri-generation system has the potential to increase thermal energy utilisation and thus the access to the benefits achievable from on-site electrical generation, primarily; reduced emissions and operating costs. Using empirical SOFC and liquid desiccant component data, an energetic, economic and environmental performance analysis assessment of the novel system is presented. Significant conclusions from the work include: (1) SOFC and liquid desiccant are a viable technological pairing in the development of an efficient and effective tri-generation system. High tri-generation efficiencies in the range of 68–71% are attainable. (2) The inclusion of liquid desiccant provides an efficiency increase of 9–15% compared to SOFC electrical operation only, demonstrating the potential of the system in building applications that require simultaneous electrical power, heating and/or dehumidification/cooling. (3) Compared to an equivalent base case system, the novel tri-generation system is currently only economically viable with a government’s financial support. SOFC capital cost and stack replacement are the largest inhibitors to economic viability. Environmental performance is closely linked to electrical emission factor, and thus performance is heavily country dependent. (4) The economic and environmental feasibility of the novel tri-generation system will improve with predicted SOFC capital cost reductions and the transition to clean hydrogen production." @default.
• W2463978112 created "2016-07-22" @default.
• W2463978112 creator A5006801533 @default.
• W2463978112 creator A5041318394 @default.
• W2463978112 creator A5045281225 @default.
• W2463978112 creator A5055851937 @default.
• W2463978112 date "2016-09-01" @default.
• W2463978112 modified "2023-10-16" @default.
• W2463978112 title "Assessment of a novel solid oxide fuel cell tri-generation system for building applications" @default.
• W2463978112 cites W1024405826 @default.
• W2463978112 cites W1854638081 @default.
• W2463978112 cites W1966145969 @default.
• W2463978112 cites W1968615396 @default.
• W2463978112 cites W1971297502 @default.
• W2463978112 cites W1971433741 @default.
• W2463978112 cites W1974330277 @default.
• W2463978112 cites W1974512306 @default.
• W2463978112 cites W1979568258 @default.
• W2463978112 cites W1984757464 @default.
• W2463978112 cites W1990685673 @default.
• W2463978112 cites W1998281000 @default.
• W2463978112 cites W1999383364 @default.
• W2463978112 cites W2005472317 @default.
• W2463978112 cites W2010138509 @default.
• W2463978112 cites W2012029044 @default.
• W2463978112 cites W201811407 @default.
• W2463978112 cites W2027963117 @default.
• W2463978112 cites W2036945186 @default.
• W2463978112 cites W2037543672 @default.
• W2463978112 cites W2040825058 @default.
• W2463978112 cites W2045103848 @default.
• W2463978112 cites W2045200694 @default.
• W2463978112 cites W2050422139 @default.
• W2463978112 cites W2052666188 @default.
• W2463978112 cites W2062419125 @default.
• W2463978112 cites W2070234972 @default.
• W2463978112 cites W2072335901 @default.
• W2463978112 cites W2078176429 @default.
• W2463978112 cites W2082080163 @default.
• W2463978112 cites W2092895297 @default.
• W2463978112 cites W2095197480 @default.
• W2463978112 cites W2153627204 @default.
• W2463978112 cites W2188076712 @default.
• W2463978112 cites W2195145458 @default.
• W2463978112 cites W425177733 @default.
• W2463978112 doi "https://doi.org/10.1016/j.enconman.2016.07.010" @default.
• W2463978112 hasPublicationYear "2016" @default.
• W2463978112 type Work @default.
• W2463978112 sameAs 2463978112 @default.
• W2463978112 citedByCount "26" @default.
• W2463978112 countsByYear W24639781122016 @default.
• W2463978112 countsByYear W24639781122017 @default.
• W2463978112 countsByYear W24639781122018 @default.
• W2463978112 countsByYear W24639781122019 @default.
• W2463978112 countsByYear W24639781122020 @default.
• W2463978112 countsByYear W24639781122021 @default.
• W2463978112 countsByYear W24639781122023 @default.
• W2463978112 crossrefType "journal-article" @default.
• W2463978112 hasAuthorship W2463978112A5006801533 @default.
• W2463978112 hasAuthorship W2463978112A5041318394 @default.
• W2463978112 hasAuthorship W2463978112A5045281225 @default.
• W2463978112 hasAuthorship W2463978112A5055851937 @default.
• W2463978112 hasBestOaLocation W24639781122 @default.
• W2463978112 hasConcept C103742991 @default.
• W2463978112 hasConcept C118993495 @default.
• W2463978112 hasConcept C121332964 @default.
• W2463978112 hasConcept C127413603 @default.
• W2463978112 hasConcept C147789679 @default.
• W2463978112 hasConcept C159985019 @default.
• W2463978112 hasConcept C163258240 @default.
• W2463978112 hasConcept C171146098 @default.
• W2463978112 hasConcept C17525397 @default.
• W2463978112 hasConcept C185592680 @default.
• W2463978112 hasConcept C18762648 @default.
• W2463978112 hasConcept C192562407 @default.
• W2463978112 hasConcept C21880701 @default.
• W2463978112 hasConcept C2778456004 @default.
• W2463978112 hasConcept C2993926350 @default.
• W2463978112 hasConcept C37819138 @default.
• W2463978112 hasConcept C39432304 @default.
• W2463978112 hasConcept C423512 @default.
• W2463978112 hasConcept C62520636 @default.
• W2463978112 hasConcept C78519656 @default.
• W2463978112 hasConcept C89395315 @default.
• W2463978112 hasConceptScore W2463978112C103742991 @default.
• W2463978112 hasConceptScore W2463978112C118993495 @default.
• W2463978112 hasConceptScore W2463978112C121332964 @default.
• W2463978112 hasConceptScore W2463978112C127413603 @default.
• W2463978112 hasConceptScore W2463978112C147789679 @default.
• W2463978112 hasConceptScore W2463978112C159985019 @default.
• W2463978112 hasConceptScore W2463978112C163258240 @default.
• W2463978112 hasConceptScore W2463978112C171146098 @default.
• W2463978112 hasConceptScore W2463978112C17525397 @default.
• W2463978112 hasConceptScore W2463978112C185592680 @default.
• W2463978112 hasConceptScore W2463978112C18762648 @default.
• W2463978112 hasConceptScore W2463978112C192562407 @default.
• W2463978112 hasConceptScore W2463978112C21880701 @default.
• W2463978112 hasConceptScore W2463978112C2778456004 @default.

• next