SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2017478937> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2017478937 endingPage "1652" @default.
W2017478937 startingPage "1638" @default.
W2017478937 abstract "A thermodynamic model for an open inverse Brayton cycle (refrigeration or heat pump cycle) with pressure drop irreversibilities is established. There are seven flow resistances (or pressure drops) encountered by the working fluid stream for the inverse Brayton cycle. Two of these, the friction through the blades and vanes of the compressor and the expander, are related to the isentropic efficiencies. The remaining flow resistances are always present because of the changes in flow cross-section at the compressor inlet and outlet, heat exchanger inlets and outlets and expander inlet and outlet. The analytical formulae about the cooling load of refrigeration cycle, the heating load of heat pump cycle and other coefficients are derived, which indicate that the thermodynamic performance for open inverse Brayton cycle can be optimized by adjusting the mass flow rate (or the distribution of pressure losses along the flow path). It is shown that there are optimal air mass flow rates (or the distribution of pressure losses along the flow path) which maximize the cooling load of refrigeration cycle, and the optimal air mass flow rates are smaller than the one at the maximum power output of the direct Brayton cycle." @default.
W2017478937 created "2016-06-24" @default.
W2017478937 creator A5079768155 @default.
W2017478937 creator A5084002606 @default.
W2017478937 creator A5089245286 @default.
W2017478937 date "2012-12-01" @default.
W2017478937 modified "2023-09-25" @default.
W2017478937 title "Thermodynamic optimization principle for open inverse Brayton cycle (refrigeration/heat pump cycle)" @default.
W2017478937 cites W1963496142 @default.
W2017478937 cites W1964428035 @default.
W2017478937 cites W1968000550 @default.
W2017478937 cites W1970552817 @default.
W2017478937 cites W1982872005 @default.
W2017478937 cites W1982964098 @default.
W2017478937 cites W1983028811 @default.
W2017478937 cites W1985254112 @default.
W2017478937 cites W1986838369 @default.
W2017478937 cites W1987300781 @default.
W2017478937 cites W1990418737 @default.
W2017478937 cites W1992086952 @default.
W2017478937 cites W1993717483 @default.
W2017478937 cites W2000514840 @default.
W2017478937 cites W2000542772 @default.
W2017478937 cites W2002230362 @default.
W2017478937 cites W2008434662 @default.
W2017478937 cites W2013021576 @default.
W2017478937 cites W2017445164 @default.
W2017478937 cites W2019012178 @default.
W2017478937 cites W2023305514 @default.
W2017478937 cites W2029801852 @default.
W2017478937 cites W2030991798 @default.
W2017478937 cites W2032132690 @default.
W2017478937 cites W2033035918 @default.
W2017478937 cites W2033553323 @default.
W2017478937 cites W2033679682 @default.
W2017478937 cites W2034373592 @default.
W2017478937 cites W2036108863 @default.
W2017478937 cites W2038843880 @default.
W2017478937 cites W2039121704 @default.
W2017478937 cites W2039538995 @default.
W2017478937 cites W2040131316 @default.
W2017478937 cites W2042013227 @default.
W2017478937 cites W2047404936 @default.
W2017478937 cites W2048409853 @default.
W2017478937 cites W2052360266 @default.
W2017478937 cites W2054661400 @default.
W2017478937 cites W2058020634 @default.
W2017478937 cites W2067153151 @default.
W2017478937 cites W2067528089 @default.
W2017478937 cites W2072002373 @default.
W2017478937 cites W2073500752 @default.
W2017478937 cites W2077029767 @default.
W2017478937 cites W2080257772 @default.
W2017478937 cites W2081866415 @default.
W2017478937 cites W2083802187 @default.
W2017478937 cites W2090044256 @default.
W2017478937 cites W2090981840 @default.
W2017478937 cites W2110132856 @default.
W2017478937 cites W2112108742 @default.
W2017478937 cites W2120697454 @default.
W2017478937 cites W2157297032 @default.
W2017478937 cites W2165953645 @default.
W2017478937 doi "https://doi.org/10.1016/j.scient.2012.09.007" @default.
W2017478937 hasPublicationYear "2012" @default.
W2017478937 type Work @default.
W2017478937 sameAs 2017478937 @default.
W2017478937 citedByCount "6" @default.
W2017478937 countsByYear W20174789372014 @default.
W2017478937 countsByYear W20174789372015 @default.
W2017478937 countsByYear W20174789372016 @default.
W2017478937 countsByYear W20174789372017 @default.
W2017478937 countsByYear W20174789372023 @default.
W2017478937 crossrefType "journal-article" @default.
W2017478937 hasAuthorship W2017478937A5079768155 @default.
W2017478937 hasAuthorship W2017478937A5084002606 @default.
W2017478937 hasAuthorship W2017478937A5089245286 @default.
W2017478937 hasBestOaLocation W20174789371 @default.
W2017478937 hasConcept C107706546 @default.
W2017478937 hasConcept C114088122 @default.
W2017478937 hasConcept C121332964 @default.
W2017478937 hasConcept C131097465 @default.
W2017478937 hasConcept C141713623 @default.
W2017478937 hasConcept C172959903 @default.
W2017478937 hasConcept C175503448 @default.
W2017478937 hasConcept C184593036 @default.
W2017478937 hasConcept C192562407 @default.
W2017478937 hasConcept C199499590 @default.
W2017478937 hasConcept C2776461528 @default.
W2017478937 hasConcept C2779301550 @default.
W2017478937 hasConcept C33493971 @default.
W2017478937 hasConcept C42611778 @default.
W2017478937 hasConcept C4638862 @default.
W2017478937 hasConcept C57879066 @default.
W2017478937 hasConcept C69907114 @default.
W2017478937 hasConcept C75892298 @default.
W2017478937 hasConcept C96261405 @default.
W2017478937 hasConcept C97355855 @default.
W2017478937 hasConceptScore W2017478937C107706546 @default.