SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3196470159> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W3196470159 endingPage "132286" @default.
W3196470159 startingPage "132286" @default.
W3196470159 abstract "• New concept with applied sinusoidal- and dimple- microchannels was proposed. • The heat and transfer ability of the microchannels was evaluated by Nu , f , and HTEF . • SMD shows the best property according to Nu , f , HTEF , and experimental results. • The effect of microchannel structures on the MSR performances was explored. • The dynamic performance was evaluated by modulating the methanol feeding flux. A methanol steam reforming-based microreactor is an extraordinary setup for hydrogen supply; nevertheless, the heat transfer capability and flow resistance of the microreactor may be restricted by each other, which calls for further structure design and investigation. To comprehensively improve the performance of a direct microchannel (DM) with the implementation of on-board hydrogen supply, the concepts of sinusoidal- and dimple-structured microchannels are synchronously introduced. Four types of microchannels for methanol steam reforming (MSR) are studied: direct microchannel (DM), direct microchannel with dimples (DMD), sinusoidal microchannel (SM), and sinusoidal microchannel with dimples (SMD). The influence of microchannel structure on the reformer’s flow and heat transfer properties is evaluated by Nusselt number, resistance coefficient, and heat transfer efficiency factor using numerical simulation. Results show that the SMD is the optimal structure. Moreover, the effects of reaction temperatures, methanol feeding fluxes, and steam/CH 3 OH mole ratios on the MSR performance are experimentally investigated. The effect of microchannel structures on the hydrogen production performance is also explored to validate the numerical simulation results. It is revealed that the integrated structure with both sinusoidal waves and dimples exhibited the best performance, demonstrating enhancements in heat and mass transportation as well as excellent H 2 production capacity." @default.
W3196470159 created "2021-09-13" @default.
W3196470159 creator A5006408811 @default.
W3196470159 creator A5023990218 @default.
W3196470159 creator A5039886666 @default.
W3196470159 creator A5046755721 @default.
W3196470159 creator A5055207901 @default.
W3196470159 creator A5071697857 @default.
W3196470159 creator A5084475738 @default.
W3196470159 date "2022-02-01" @default.
W3196470159 modified "2023-10-11" @default.
W3196470159 title "Microchannel structure design for hydrogen supply from methanol steam reforming" @default.
W3196470159 cites W1963484793 @default.
W3196470159 cites W1976033779 @default.
W3196470159 cites W1976633837 @default.
W3196470159 cites W1985825233 @default.
W3196470159 cites W1989029881 @default.
W3196470159 cites W1992137832 @default.
W3196470159 cites W1993034751 @default.
W3196470159 cites W2006123788 @default.
W3196470159 cites W2008140320 @default.
W3196470159 cites W2010593288 @default.
W3196470159 cites W2014505801 @default.
W3196470159 cites W2016097624 @default.
W3196470159 cites W2019051294 @default.
W3196470159 cites W2020392883 @default.
W3196470159 cites W2020494075 @default.
W3196470159 cites W2022189441 @default.
W3196470159 cites W2035074804 @default.
W3196470159 cites W2035316937 @default.
W3196470159 cites W2036357673 @default.
W3196470159 cites W2038934369 @default.
W3196470159 cites W2040569655 @default.
W3196470159 cites W2043587915 @default.
W3196470159 cites W2046778465 @default.
W3196470159 cites W2055293575 @default.
W3196470159 cites W2062033496 @default.
W3196470159 cites W2062867233 @default.
W3196470159 cites W2084634842 @default.
W3196470159 cites W2090752495 @default.
W3196470159 cites W2094923968 @default.
W3196470159 cites W2135095428 @default.
W3196470159 cites W2161597811 @default.
W3196470159 cites W2163140501 @default.
W3196470159 cites W2472785731 @default.
W3196470159 cites W2519610508 @default.
W3196470159 cites W2608599321 @default.
W3196470159 cites W2618359839 @default.
W3196470159 cites W2621289625 @default.
W3196470159 cites W2747556972 @default.
W3196470159 cites W2791570738 @default.
W3196470159 cites W2792263754 @default.
W3196470159 cites W2792815561 @default.
W3196470159 cites W2796090114 @default.
W3196470159 cites W2799976981 @default.
W3196470159 cites W2804623748 @default.
W3196470159 cites W2890964463 @default.
W3196470159 cites W2896761409 @default.
W3196470159 cites W2899562623 @default.
W3196470159 cites W2899615195 @default.
W3196470159 cites W2914274614 @default.
W3196470159 cites W2939204017 @default.
W3196470159 cites W2947935380 @default.
W3196470159 cites W2949089508 @default.
W3196470159 cites W2951152269 @default.
W3196470159 cites W2977707061 @default.
W3196470159 cites W2981460820 @default.
W3196470159 cites W2996062040 @default.
W3196470159 cites W2999458928 @default.
W3196470159 cites W3014160785 @default.
W3196470159 cites W3015702816 @default.
W3196470159 cites W3018394591 @default.
W3196470159 cites W3033381528 @default.
W3196470159 cites W3034242230 @default.
W3196470159 cites W3042704058 @default.
W3196470159 cites W3047077992 @default.
W3196470159 cites W3082476698 @default.
W3196470159 cites W3083847108 @default.
W3196470159 cites W3087240219 @default.
W3196470159 cites W3093168478 @default.
W3196470159 cites W3109917221 @default.
W3196470159 cites W3112816212 @default.
W3196470159 cites W3139542882 @default.
W3196470159 cites W3158251874 @default.
W3196470159 cites W975085241 @default.
W3196470159 doi "https://doi.org/10.1016/j.cej.2021.132286" @default.
W3196470159 hasPublicationYear "2022" @default.
W3196470159 type Work @default.
W3196470159 sameAs 3196470159 @default.
W3196470159 citedByCount "35" @default.
W3196470159 countsByYear W31964701592021 @default.
W3196470159 countsByYear W31964701592022 @default.
W3196470159 countsByYear W31964701592023 @default.
W3196470159 crossrefType "journal-article" @default.
W3196470159 hasAuthorship W3196470159A5006408811 @default.
W3196470159 hasAuthorship W3196470159A5023990218 @default.
W3196470159 hasAuthorship W3196470159A5039886666 @default.
W3196470159 hasAuthorship W3196470159A5046755721 @default.