SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4319460061> ?p ?o ?g. }

Showing items 1 to 100 of ±128 with 100 items per page.

W4319460061 endingPage "325" @default.
W4319460061 startingPage "305" @default.
W4319460061 abstract "Syngas is mostly composed of carbon monoxide and hydrogen, with a trace of hydrocarbon molecules. This gas has a high calorific value and hence produces a lot of energy, which is utilized to power some huge and complex facilities. Syngas can be utilized as a source of hydrogen in refining operations to create ammonia, methanol, and hydrogenation, as well as a fuel. Meanwhile, micro-channel reactors are the most recent advancement in FT (Fischer–Tropsch) reactor technology. Parallel arrays of channels ranging in diameter from 0.1 to 5.0 mm comprise these reactors. Thousands of channels on micron-sized holding catalysts are entangled with channels filled with hot water to cool them. This relationship improves the process's heat transfer efficiency, allowing for the maintenance of a steady temperature, a high rate of activity, and a long catalyst life. If this heat dissipation is not done efficiently, it will have a detrimental effect on the device's life and other electronic equipment, resulting in decreased efficiency. Numerous researchers have examined the micro-channel’s behavior, fluid flow visualizations within the micro-channel, and their uses both theoretically and empirically in nature. This chapter talks about the rigid behavior of micro-channels, how they make syngas, and how they can be used in many different industries." @default.
W4319460061 created "2023-02-09" @default.
W4319460061 creator A5000696336 @default.
W4319460061 creator A5007582804 @default.
W4319460061 creator A5049880923 @default.
W4319460061 creator A5078116755 @default.
W4319460061 creator A5089633480 @default.
W4319460061 date "2023-01-01" @default.
W4319460061 modified "2023-09-27" @default.
W4319460061 title "Micro-channel reactor technology for syngas production" @default.
W4319460061 cites W1252729550 @default.
W4319460061 cites W1963724863 @default.
W4319460061 cites W1965847387 @default.
W4319460061 cites W1968291102 @default.
W4319460061 cites W1971518782 @default.
W4319460061 cites W1975067620 @default.
W4319460061 cites W1978535056 @default.
W4319460061 cites W1979922886 @default.
W4319460061 cites W1980192847 @default.
W4319460061 cites W1983671519 @default.
W4319460061 cites W1986341280 @default.
W4319460061 cites W1988814259 @default.
W4319460061 cites W1998126928 @default.
W4319460061 cites W1999801662 @default.
W4319460061 cites W2000290386 @default.
W4319460061 cites W2002978910 @default.
W4319460061 cites W2003432468 @default.
W4319460061 cites W2004537574 @default.
W4319460061 cites W2008327439 @default.
W4319460061 cites W2018651936 @default.
W4319460061 cites W2025068914 @default.
W4319460061 cites W2029011430 @default.
W4319460061 cites W2031122812 @default.
W4319460061 cites W2031904903 @default.
W4319460061 cites W2032028582 @default.
W4319460061 cites W2038208660 @default.
W4319460061 cites W2057024372 @default.
W4319460061 cites W2063739570 @default.
W4319460061 cites W2070879722 @default.
W4319460061 cites W2073749222 @default.
W4319460061 cites W2079470628 @default.
W4319460061 cites W2079653464 @default.
W4319460061 cites W2079949415 @default.
W4319460061 cites W2083412469 @default.
W4319460061 cites W2092476907 @default.
W4319460061 cites W2094983886 @default.
W4319460061 cites W2127538111 @default.
W4319460061 cites W2136817240 @default.
W4319460061 cites W2146125796 @default.
W4319460061 cites W2166213615 @default.
W4319460061 cites W2166317268 @default.
W4319460061 cites W2168580979 @default.
W4319460061 cites W2330531691 @default.
W4319460061 cites W2588075706 @default.
W4319460061 cites W2596120201 @default.
W4319460061 cites W2610625052 @default.
W4319460061 cites W2618550242 @default.
W4319460061 cites W2758734642 @default.
W4319460061 cites W2767485564 @default.
W4319460061 cites W2783955822 @default.
W4319460061 cites W2794141196 @default.
W4319460061 cites W2803338174 @default.
W4319460061 cites W2803808855 @default.
W4319460061 cites W2811446217 @default.
W4319460061 cites W2920542603 @default.
W4319460061 cites W2963612690 @default.
W4319460061 cites W3093425844 @default.
W4319460061 cites W3109950430 @default.
W4319460061 cites W3111088409 @default.
W4319460061 cites W3123743092 @default.
W4319460061 cites W3144131531 @default.
W4319460061 cites W3215128795 @default.
W4319460061 cites W4242824310 @default.
W4319460061 cites W4248994674 @default.
W4319460061 doi "https://doi.org/10.1016/b978-0-323-91871-8.00019-2" @default.
W4319460061 hasPublicationYear "2023" @default.
W4319460061 type Work @default.
W4319460061 citedByCount "0" @default.
W4319460061 crossrefType "book-chapter" @default.
W4319460061 hasAuthorship W4319460061A5000696336 @default.
W4319460061 hasAuthorship W4319460061A5007582804 @default.
W4319460061 hasAuthorship W4319460061A5049880923 @default.
W4319460061 hasAuthorship W4319460061A5078116755 @default.
W4319460061 hasAuthorship W4319460061A5089633480 @default.
W4319460061 hasConcept C119599485 @default.
W4319460061 hasConcept C127162648 @default.
W4319460061 hasConcept C127413603 @default.
W4319460061 hasConcept C130007353 @default.
W4319460061 hasConcept C178790620 @default.
W4319460061 hasConcept C185592680 @default.
W4319460061 hasConcept C192562407 @default.
W4319460061 hasConcept C194439259 @default.
W4319460061 hasConcept C202189072 @default.
W4319460061 hasConcept C21880701 @default.
W4319460061 hasConcept C43535742 @default.
W4319460061 hasConcept C512968161 @default.
W4319460061 hasConcept C548081761 @default.
W4319460061 hasConceptScore W4319460061C119599485 @default.