00877nam0-22003131i-450-99000568006040332120100920093820.00-19-814835-6000568006FED01000568006(Aleph)000568006FED0100056800619990604d1983----km-y0itay50------baengy-------001yyMiasmaPollution and Purification in early Greek ReligionRobert ParkerOxfordClaredon Press1983XVIII, 413 p.22 cmReligione grecaPurificazioneGrecia antica292.2Parker,Robert<1950- >98034ITUNINARICAUNIMARCBK990005680060403321292.2 PAR 1Bibl.59908FLFBCFLFBCMiasma600971UNINA01746nam 2200385z- 450 9910346907003321202102111000022232(CKB)4920000000101452(oapen)https://directory.doabooks.org/handle/20.500.12854/50094(oapen)doab50094(EXLCZ)99492000000010145220202102d2011 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierIn-situ H2O removal via hydorphilic membranes during Fischer-Tropsch and other fuel-related synthesis reactionsKIT Scientific Publishing20111 online resource (IV, 244 p. p.)3-86644-640-3 The general objective of this thesis was to explore the potential of in-situ H2O removal during fuel-related synthesis reactions with focus on in-situ H2O removal by hydrophilic membranes and by chemical reaction. It is demonstrated that in-situ H2O removal through vapour permeation during CO2 hydrogenation to Fischer-Tropsch hydrocarbons and during DME/DEE synthesis leads to increased conversion and yield levels, which are directly linked to the degree of H2O recovery.BiotechnologybicsscCO2 hydrogenationFischer-Tropsch synthesisH2O removalmembrane reactorwater gas shift reactionBiotechnologyRohde Martin Philippauth1318409BOOK9910346907003321In-situ H2O removal via hydorphilic membranes during Fischer-Tropsch and other fuel-related synthesis reactions3033209UNINA