SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3124241145> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W3124241145 abstract "For passenger fuel cell vehicles (FCVs), customers will expect to start the vehicle and drive almost immediately, implying a very short system warmup to full power. While hybridization strategies may fulfill this expectation, the extent of hybridization will be dictated by the time required for the fuel cell system to reach normal operating temperatures. Quick-starting fuel cell systems are impeded by two problems: 1) the freezing of residual water or water generated by starting the stack at below freezing temperatures and 2) temperature-dependent fuel cell performance, improving as the temperature reaches the normal range. Cold start models exist in the literature; however, there does not appear to be a model that fully captures the thermal characteristics of the stack during sub-freezing startup conditions. Existing models do not include stack internal heating methods or endplate thermal mass effect on end cells. The focus of this research is the development and use of a sub-freezing thermal model for a polymer electrolyte fuel cell stack and system designed for integration within a direct hydrogen hybrid FCV. The stack is separated into individual cell layers to determine an accurate temperature distribution within the stack. Unlike a lumped model, which may use a single temperature as an indicator of the stack's thermal condition, a layered model can reveal the effect of the endplate thermal mass on the end cells, and accommodate the evaluation of internal heating methods that may mitigate this effect. This research is designed to answer the following motivating questions: * What detailed thermal model design will accurately characterize the fuel cell stack and system during the sub-freezing startup operation? * What are the effects of different startup strategies on energy consumption and time to normal operation? These questions are addressed in this dissertation. Major research findings include the following recommendations for the best startup strategies based on model parameter values and assumptions: 1) use internal heating methods (other than stack reactions) below 0oC, 2) circulate coolant for uniform heat distribution, 3) minimize coolant loop thermal mass, 4) heat the endplates, and 5) use metal such as stainless steel for the bipolar plates." @default.
W3124241145 created "2021-02-01" @default.
W3124241145 creator A5065614104 @default.
W3124241145 date "2004-03-01" @default.
W3124241145 modified "2023-09-23" @default.
W3124241145 title "A Thermal Model to Evaluate Sub-Freezing Startup for a Direct Hydrogen Hybrid Fuel Cell Vehicle Polymer Electrolyte Fuel Cell Stack and System" @default.
W3124241145 cites W1531209125 @default.
W3124241145 cites W1533998397 @default.
W3124241145 cites W1538614695 @default.
W3124241145 cites W1539958469 @default.
W3124241145 cites W1541507240 @default.
W3124241145 cites W1550912995 @default.
W3124241145 cites W1562823297 @default.
W3124241145 cites W1572442108 @default.
W3124241145 cites W1971860042 @default.
W3124241145 cites W1982295350 @default.
W3124241145 cites W1998179432 @default.
W3124241145 cites W1999468792 @default.
W3124241145 cites W2000247873 @default.
W3124241145 cites W2044307855 @default.
W3124241145 cites W2044397335 @default.
W3124241145 cites W2055977501 @default.
W3124241145 cites W2061232664 @default.
W3124241145 cites W2064503430 @default.
W3124241145 cites W2072203322 @default.
W3124241145 cites W2091757083 @default.
W3124241145 cites W2092889901 @default.
W3124241145 cites W2103584713 @default.
W3124241145 cites W2160061106 @default.
W3124241145 cites W2162165682 @default.
W3124241145 cites W2165465120 @default.
W3124241145 cites W2255500235 @default.
W3124241145 cites W2271078368 @default.
W3124241145 cites W3124996007 @default.
W3124241145 cites W3138295406 @default.
W3124241145 cites W618405100 @default.
W3124241145 cites W81671237 @default.
W3124241145 cites W848762127 @default.
W3124241145 cites W1018850191 @default.
W3124241145 cites W1491118992 @default.
W3124241145 cites W1494650148 @default.
W3124241145 cites W1530452455 @default.
W3124241145 cites W1543232640 @default.
W3124241145 cites W1545488842 @default.
W3124241145 cites W1547609129 @default.
W3124241145 cites W1549534619 @default.
W3124241145 cites W1563456628 @default.
W3124241145 cites W1640414589 @default.
W3124241145 cites W1679033451 @default.
W3124241145 cites W1769230986 @default.
W3124241145 cites W1798253532 @default.
W3124241145 cites W1913520756 @default.
W3124241145 cites W1966728707 @default.
W3124241145 cites W2013298016 @default.
W3124241145 cites W2106174483 @default.
W3124241145 cites W2111810036 @default.
W3124241145 cites W2116814448 @default.
W3124241145 cites W2150293774 @default.
W3124241145 cites W2159357035 @default.
W3124241145 cites W2212409824 @default.
W3124241145 cites W2216600325 @default.
W3124241145 cites W2218249200 @default.
W3124241145 cites W2241488473 @default.
W3124241145 cites W2266861716 @default.
W3124241145 cites W2269174109 @default.
W3124241145 cites W238301596 @default.
W3124241145 hasPublicationYear "2004" @default.
W3124241145 type Work @default.
W3124241145 sameAs 3124241145 @default.
W3124241145 citedByCount "0" @default.
W3124241145 crossrefType "journal-article" @default.
W3124241145 hasAuthorship W3124241145A5065614104 @default.
W3124241145 hasConcept C116915560 @default.
W3124241145 hasConcept C121332964 @default.
W3124241145 hasConcept C127413603 @default.
W3124241145 hasConcept C132319479 @default.
W3124241145 hasConcept C147789679 @default.
W3124241145 hasConcept C171146098 @default.
W3124241145 hasConcept C17525397 @default.
W3124241145 hasConcept C178790620 @default.
W3124241145 hasConcept C185592680 @default.
W3124241145 hasConcept C192562407 @default.
W3124241145 hasConcept C199360897 @default.
W3124241145 hasConcept C204530211 @default.
W3124241145 hasConcept C2778956030 @default.
W3124241145 hasConcept C2987658370 @default.
W3124241145 hasConcept C41008148 @default.
W3124241145 hasConcept C42360764 @default.
W3124241145 hasConcept C512968161 @default.
W3124241145 hasConcept C68801617 @default.
W3124241145 hasConcept C78519656 @default.
W3124241145 hasConcept C9395851 @default.
W3124241145 hasConcept C97355855 @default.
W3124241145 hasConceptScore W3124241145C116915560 @default.
W3124241145 hasConceptScore W3124241145C121332964 @default.
W3124241145 hasConceptScore W3124241145C127413603 @default.
W3124241145 hasConceptScore W3124241145C132319479 @default.
W3124241145 hasConceptScore W3124241145C147789679 @default.
W3124241145 hasConceptScore W3124241145C171146098 @default.
W3124241145 hasConceptScore W3124241145C17525397 @default.