SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2072386475> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2072386475 endingPage "176" @default.
W2072386475 startingPage "164" @default.
W2072386475 abstract "Fuel cell utilization for automobile and residential applications is a promising option in order to help reduce environmental concerns such as pollution. However, fuel cell development requires addressing their dynamic behavior to improve their performances and their life cycle. Since the temperature distribution in the cell is known to be an important factor to the fuel cell's efficiency, a cooling device is often added to homogenize the temperature in the cell and to ensure temperature control. A 3D dynamic thermal model of a single fuel cell is presented in this work in order to study the temperature distribution in a fuel cell cooled from the bottom to the top with air. The model is governed by the thermal energy balance, taking into account the inlet gas humidity. The model is developed with the finite difference method and is implemented in the Matlab/Simulink environment. The validation is based on the performances of the “NEXA” fuel cell produced by Ballard Power Systems. The efficiency analysis of that air cooling device reveals that the cell temperature is directly linked to the current density and to the gas humidity—varying from 30 °C at 5A to 80 °C at 35A at low humidity. Moreover, the temperature non-uniformity in the stack is shown to be very high. As a result, temperatures are higher at the top part of the cell than at the bottom part, with a difference of up to a 5 °C. Moreover the non-uniformity of the air cooling between the cells of the stack leads to large temperature variations, up to 8 °C, from one cell to another. These temperature variations result in large voltage disparities between the cells, which reduce the total electrical power of the entire stack." @default.
W2072386475 created "2016-06-24" @default.
W2072386475 creator A5008090389 @default.
W2072386475 creator A5023136296 @default.
W2072386475 creator A5030902125 @default.
W2072386475 creator A5031118723 @default.
W2072386475 creator A5037329891 @default.
W2072386475 creator A5068366191 @default.
W2072386475 creator A5069925575 @default.
W2072386475 creator A5083000817 @default.
W2072386475 date "2008-04-01" @default.
W2072386475 modified "2023-10-14" @default.
W2072386475 title "Transient air cooling thermal modeling of a PEM fuel cell" @default.
W2072386475 cites W1963575226 @default.
W2072386475 cites W1971860042 @default.
W2072386475 cites W1981195702 @default.
W2072386475 cites W1982772445 @default.
W2072386475 cites W1990978960 @default.
W2072386475 cites W1991151121 @default.
W2072386475 cites W1998179432 @default.
W2072386475 cites W1999316377 @default.
W2072386475 cites W2000247873 @default.
W2072386475 cites W2014336381 @default.
W2072386475 cites W2015009486 @default.
W2072386475 cites W2015897621 @default.
W2072386475 cites W2018104280 @default.
W2072386475 cites W2026914310 @default.
W2072386475 cites W2043594301 @default.
W2072386475 cites W2044307855 @default.
W2072386475 cites W2052771008 @default.
W2072386475 cites W2057720398 @default.
W2072386475 cites W2061127525 @default.
W2072386475 cites W2061182373 @default.
W2072386475 cites W2065427390 @default.
W2072386475 cites W2065593764 @default.
W2072386475 cites W2071628616 @default.
W2072386475 cites W2087172917 @default.
W2072386475 cites W2089602867 @default.
W2072386475 cites W2091869479 @default.
W2072386475 cites W2098826962 @default.
W2072386475 cites W2120279601 @default.
W2072386475 cites W2128274052 @default.
W2072386475 cites W2137517587 @default.
W2072386475 cites W2147507386 @default.
W2072386475 cites W3138295406 @default.
W2072386475 doi "https://doi.org/10.1016/j.jpowsour.2007.12.102" @default.
W2072386475 hasPublicationYear "2008" @default.
W2072386475 type Work @default.
W2072386475 sameAs 2072386475 @default.
W2072386475 citedByCount "88" @default.
W2072386475 countsByYear W20723864752012 @default.
W2072386475 countsByYear W20723864752013 @default.
W2072386475 countsByYear W20723864752015 @default.
W2072386475 countsByYear W20723864752016 @default.
W2072386475 countsByYear W20723864752017 @default.
W2072386475 countsByYear W20723864752019 @default.
W2072386475 countsByYear W20723864752020 @default.
W2072386475 countsByYear W20723864752021 @default.
W2072386475 countsByYear W20723864752022 @default.
W2072386475 countsByYear W20723864752023 @default.
W2072386475 crossrefType "journal-article" @default.
W2072386475 hasAuthorship W2072386475A5008090389 @default.
W2072386475 hasAuthorship W2072386475A5023136296 @default.
W2072386475 hasAuthorship W2072386475A5030902125 @default.
W2072386475 hasAuthorship W2072386475A5031118723 @default.
W2072386475 hasAuthorship W2072386475A5037329891 @default.
W2072386475 hasAuthorship W2072386475A5068366191 @default.
W2072386475 hasAuthorship W2072386475A5069925575 @default.
W2072386475 hasAuthorship W2072386475A5083000817 @default.
W2072386475 hasConcept C105873366 @default.
W2072386475 hasConcept C111919701 @default.
W2072386475 hasConcept C116915560 @default.
W2072386475 hasConcept C121332964 @default.
W2072386475 hasConcept C127413603 @default.
W2072386475 hasConcept C132319479 @default.
W2072386475 hasConcept C151420433 @default.
W2072386475 hasConcept C158960510 @default.
W2072386475 hasConcept C164915370 @default.
W2072386475 hasConcept C171146098 @default.
W2072386475 hasConcept C18762648 @default.
W2072386475 hasConcept C192562407 @default.
W2072386475 hasConcept C199360897 @default.
W2072386475 hasConcept C204530211 @default.
W2072386475 hasConcept C2780799671 @default.
W2072386475 hasConcept C2987658370 @default.
W2072386475 hasConcept C39432304 @default.
W2072386475 hasConcept C41008148 @default.
W2072386475 hasConcept C42360764 @default.
W2072386475 hasConcept C78519656 @default.
W2072386475 hasConcept C9395851 @default.
W2072386475 hasConcept C97355855 @default.
W2072386475 hasConceptScore W2072386475C105873366 @default.
W2072386475 hasConceptScore W2072386475C111919701 @default.
W2072386475 hasConceptScore W2072386475C116915560 @default.
W2072386475 hasConceptScore W2072386475C121332964 @default.
W2072386475 hasConceptScore W2072386475C127413603 @default.
W2072386475 hasConceptScore W2072386475C132319479 @default.
W2072386475 hasConceptScore W2072386475C151420433 @default.