SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2800272835> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W2800272835 endingPage "447" @default.
W2800272835 startingPage "434" @default.
W2800272835 abstract "An innovative microwave irradiation device is developed to investigate effect of microwave irradiation on pore morphology of coal powder. This device with several distinguished highlights, such as real-time infrared temperature measurement, gas replacement, process parameters controls, and large size samples testing. Specifically, results of effect of temperature (25–300 °C) and microwave power (1–6 kW) on pore morphology was evaluated by the mercury intrusion porosimetry method. The pore connectivity decreases at first then increased with incremental processing temperature or microwave power. The percolation threshold increases with increased heating temperature or microwave power. The total pores volume increases with increased processing temperature or microwave power. The total specific surface area increases firstly then decreases with increased temperature or microwave power. These suggest that effect of microwave irradiation on pore morphology is obvious. Several possibilities for microwave energy application in the field were discussed, including drilling borehole from the ground to the payzone, drilling up-hole or down-hole from the roadway to the payzone, drilling borehole along the coalbed. The process economics were also discussed. It implies that as a new technology microwave energy may have the potential for the degassing coal seams." @default.
W2800272835 created "2018-05-17" @default.
W2800272835 creator A5003956891 @default.
W2800272835 creator A5005058788 @default.
W2800272835 creator A5037484186 @default.
W2800272835 creator A5051492628 @default.
W2800272835 creator A5052267876 @default.
W2800272835 creator A5071442180 @default.
W2800272835 date "2018-09-01" @default.
W2800272835 modified "2023-10-13" @default.
W2800272835 title "Microwave irradiation on pore morphology of coal powder" @default.
W2800272835 cites W1221341198 @default.
W2800272835 cites W1964053261 @default.
W2800272835 cites W1969278075 @default.
W2800272835 cites W1991608128 @default.
W2800272835 cites W1998241162 @default.
W2800272835 cites W2014133472 @default.
W2800272835 cites W2018265635 @default.
W2800272835 cites W2021472829 @default.
W2800272835 cites W2022796397 @default.
W2800272835 cites W2026989486 @default.
W2800272835 cites W2028876757 @default.
W2800272835 cites W2030631448 @default.
W2800272835 cites W2034818997 @default.
W2800272835 cites W2035287379 @default.
W2800272835 cites W2040799585 @default.
W2800272835 cites W2042167560 @default.
W2800272835 cites W2049457092 @default.
W2800272835 cites W2051375539 @default.
W2800272835 cites W2056027827 @default.
W2800272835 cites W2058040343 @default.
W2800272835 cites W2059143368 @default.
W2800272835 cites W2077431763 @default.
W2800272835 cites W2086021745 @default.
W2800272835 cites W2089311815 @default.
W2800272835 cites W2093443964 @default.
W2800272835 cites W2114772669 @default.
W2800272835 cites W2141337158 @default.
W2800272835 cites W2145657671 @default.
W2800272835 cites W2161748053 @default.
W2800272835 cites W2193041727 @default.
W2800272835 cites W2262276457 @default.
W2800272835 cites W2271542970 @default.
W2800272835 cites W2320934596 @default.
W2800272835 cites W2324947845 @default.
W2800272835 cites W2326584844 @default.
W2800272835 cites W2409014819 @default.
W2800272835 cites W2493593567 @default.
W2800272835 cites W2508627115 @default.
W2800272835 cites W2544381785 @default.
W2800272835 cites W2548354931 @default.
W2800272835 cites W2566139143 @default.
W2800272835 cites W2580885212 @default.
W2800272835 cites W2606312256 @default.
W2800272835 cites W2619887572 @default.
W2800272835 cites W4299506498 @default.
W2800272835 doi "https://doi.org/10.1016/j.fuel.2018.04.066" @default.
W2800272835 hasPublicationYear "2018" @default.
W2800272835 type Work @default.
W2800272835 sameAs 2800272835 @default.
W2800272835 citedByCount "31" @default.
W2800272835 countsByYear W28002728352019 @default.
W2800272835 countsByYear W28002728352020 @default.
W2800272835 countsByYear W28002728352021 @default.
W2800272835 countsByYear W28002728352022 @default.
W2800272835 countsByYear W28002728352023 @default.
W2800272835 crossrefType "journal-article" @default.
W2800272835 hasAuthorship W2800272835A5003956891 @default.
W2800272835 hasAuthorship W2800272835A5005058788 @default.
W2800272835 hasAuthorship W2800272835A5037484186 @default.
W2800272835 hasAuthorship W2800272835A5051492628 @default.
W2800272835 hasAuthorship W2800272835A5052267876 @default.
W2800272835 hasAuthorship W2800272835A5071442180 @default.
W2800272835 hasConcept C111337013 @default.
W2800272835 hasConcept C119599485 @default.
W2800272835 hasConcept C121332964 @default.
W2800272835 hasConcept C127313418 @default.
W2800272835 hasConcept C127413603 @default.
W2800272835 hasConcept C150560799 @default.
W2800272835 hasConcept C159985019 @default.
W2800272835 hasConcept C178790620 @default.
W2800272835 hasConcept C185544564 @default.
W2800272835 hasConcept C185592680 @default.
W2800272835 hasConcept C187320778 @default.
W2800272835 hasConcept C191897082 @default.
W2800272835 hasConcept C192562407 @default.
W2800272835 hasConcept C199289684 @default.
W2800272835 hasConcept C25197100 @default.
W2800272835 hasConcept C2729557 @default.
W2800272835 hasConcept C2984548686 @default.
W2800272835 hasConcept C44838205 @default.
W2800272835 hasConcept C518851703 @default.
W2800272835 hasConcept C62520636 @default.
W2800272835 hasConcept C6648577 @default.
W2800272835 hasConcept C69990965 @default.
W2800272835 hasConceptScore W2800272835C111337013 @default.
W2800272835 hasConceptScore W2800272835C119599485 @default.
W2800272835 hasConceptScore W2800272835C121332964 @default.