Ghent University Academic Bibliography |

Ghent University Academic Bibliography

Matches in Ghent University Academic Bibliography for { <https://biblio.ugent.be/publication/01J65PQ5T2MBV7PTC2BYV7VHM6> ?p ?o. }

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01J65PQ5T2MBV7PTC2BYV7VHM6 classification A1.
01J65PQ5T2MBV7PTC2BYV7VHM6 date "2011".
01J65PQ5T2MBV7PTC2BYV7VHM6 language "eng".
01J65PQ5T2MBV7PTC2BYV7VHM6 type journalArticle.
01J65PQ5T2MBV7PTC2BYV7VHM6 subject "Chemistry".
01J65PQ5T2MBV7PTC2BYV7VHM6 subject "Physics and Astronomy".
01J65PQ5T2MBV7PTC2BYV7VHM6 subject "Technology and Engineering".
01J65PQ5T2MBV7PTC2BYV7VHM6 doi "10.1021/ie102490v".
01J65PQ5T2MBV7PTC2BYV7VHM6 issn "0888-5885".
01J65PQ5T2MBV7PTC2BYV7VHM6 issn "1520-5045".
01J65PQ5T2MBV7PTC2BYV7VHM6 issue "14".
01J65PQ5T2MBV7PTC2BYV7VHM6 volume "50".
01J65PQ5T2MBV7PTC2BYV7VHM6 abstract "This paper presents a comparison of microwave swing regeneration (MSR) and temperature swing regeneration (TSR) of acetone and toluene from 13X molecular sieves in terms of desorption kinetics and desorption efficiencies. The experiments were performed for two forms of the adsorbent: adsorbent bed consisting of spherical beads and adsorbent pressed in the shape of pastilles to allow for precise temperature measurement of the solid adsorbent. In TSR the adsorbent is heated by means of a hot inert gas stream whereas in MSR the adsorbent dissipates microwave energy into heat. It was found that MSR runs faster even when the adsorbent temperature is much lower than the gas temperature in TSR This implies more efficient desorption due to less energy waste in the form of heat losses and less sensible enthalpy of purge gas stream since the total gas consumption is considerably decreased. The observed enhancement of microwave-driven desorption is more pronounced for the polar adsorbate (acetone) or high heat transfer resistances (pastilles). Finally, it was verified that microwaves do not affect the adsorption capacity of the molecular sieves after several consecutive adsorption desorption cycles.".
01J65PQ5T2MBV7PTC2BYV7VHM6 author 83442B6E-B25E-11E6-B104-2D2FD0AF0289.
01J65PQ5T2MBV7PTC2BYV7VHM6 author urn:uuid:6e97f2e8-01dd-4027-ac82-29a3750e5e86.
01J65PQ5T2MBV7PTC2BYV7VHM6 author urn:uuid:7d85c8cd-ff96-4eef-87d1-27aa8866a0ca.
01J65PQ5T2MBV7PTC2BYV7VHM6 author urn:uuid:e067f55b-03df-4294-ad00-126321e2efc8.
01J65PQ5T2MBV7PTC2BYV7VHM6 dateCreated "2024-08-25T21:22:49Z".
01J65PQ5T2MBV7PTC2BYV7VHM6 dateModified "2024-11-28T00:14:34Z".
01J65PQ5T2MBV7PTC2BYV7VHM6 name "Microwave swing regeneration vs temperature swing regeneration : comparison of desorption kinetics".
01J65PQ5T2MBV7PTC2BYV7VHM6 pagination urn:uuid:dfbd301b-d8c2-47ad-a98f-3ff5eb2806ea.
01J65PQ5T2MBV7PTC2BYV7VHM6 sameAs LU-01J65PQ5T2MBV7PTC2BYV7VHM6.
01J65PQ5T2MBV7PTC2BYV7VHM6 sourceOrganization urn:uuid:96590c7c-b73f-4f75-8319-08deda02cef2.
01J65PQ5T2MBV7PTC2BYV7VHM6 type A1.