"Overwiev of Adsorption Technologies for Natural Gas Dehydration"@en . . "8"^^ . . "Ditl, Pavel" . . "978-80-905035-0-2" . . "2"^^ . . "2"^^ . "Praha" . "P\u0159ehled adsorp\u010Dn\u00EDch technologi\u00ED pro su\u0161en\u00ED zemn\u00EDho plynu"@cs . "\u010Cesk\u00E1 spole\u010Dnost chemick\u00E9ho in\u017Een\u00FDrstv\u00ED" . "Srn\u00ED na \u0160umav\u011B" . . "The principle of adsorption drying natural gas (NG) is that molecules of water vapor adhere on the surface of solids due to the effect of surface forces of the adsorbent. During the adsorption no chemical reaction not takes place, it is purely a surface phenomenon. The amount of adsorbed molecules decreases with increasing temperature and increasing whit rising pressure. This is used when setting the operating conditions of adsorption lines. Adsorption separation equipment always work periodically. Phase adsorption is regularly alternating with desorption at which the adsorbent is regenerated. Desorption is achieved by changing intensive variables (pressure, temperature), which influences the adsorption equilibrium. Adsorption systems used in the processing of natural gas are mainly the following: 1. Drying to achieve a very low water content (<1 ppm) 2. Drying of gases containing H2S (with or without simultaneous removal of H2S) 3. The co-extraction of water and C5 + hydrocarbons"@en . "RIV/68407700:21220/11:00183788" . . . . . "Princip adsorp\u010Dn\u00EDho su\u0161en\u00ED zemn\u00EDho plynu (ZP) spo\u010D\u00EDv\u00E1 v utkv\u00EDv\u00E1n\u00ED molekul vodn\u00ED p\u00E1ry na povrchu pevn\u00E9 l\u00E1tky v d\u016Fsledku p\u016Fsoben\u00ED povrchov\u00FDch sil adsorbentu. B\u011Bhem adsorpce neprob\u00EDh\u00E1 \u017E\u00E1dn\u00E1 chemick\u00E1 reakce, jde \u010Dist\u011B o povrchov\u00FD jev. Mno\u017Estv\u00ED adsorbovan\u00FDch molekul s rostouc\u00ED teplotou kles\u00E1 a s rostouc\u00EDm tlakem stoup\u00E1. Toho se vyu\u017E\u00EDv\u00E1 p\u0159i nastavov\u00E1n\u00ED provozn\u00EDch podm\u00EDnek adsorp\u010Dn\u00EDch linek. Adsorp\u010Dn\u00ED separa\u010Dn\u00ED za\u0159\u00EDzen\u00ED pracuj\u00ED v\u017Edy periodicky. F\u00E1ze adsorpce se pravideln\u011B st\u0159\u00EDd\u00E1 s desorpc\u00ED, p\u0159i kter\u00E9 se adsorbent regeneruje. Desorpce se dosahuje zm\u011Bnou intenzivn\u00ED veli\u010Diny (tlak, teplota), kter\u00E1 ovliv\u0148uje adsorp\u010Dn\u00ED rovnov\u00E1hu. Adsorp\u010Dn\u00ED syst\u00E9my u\u017E\u00EDvan\u00E9 p\u0159i zpracov\u00E1n\u00ED ZP jsou hlavn\u011B tyto: 1. Su\u0161en\u00ED k dosa\u017Een\u00ED velmi n\u00EDzk\u00E9ho obsahu vody (<1 ppm) 2. Su\u0161en\u00ED plyn\u016F obsahuj\u00EDc\u00EDch H2S (s \u010Di bez soub\u011B\u017En\u00E9ho odstra\u0148ov\u00E1n\u00ED H2S) 3. Soub\u011B\u017En\u00E1 extrakce vody a C5+ uhlovod\u00EDk\u016F" . . "RIV/68407700:21220/11:00183788!RIV12-MSM-21220___" . "222920" . "natural gas, underground gas storage, adsorption"@en . . "[522B0D75941B]" . . "P\u0159ehled adsorp\u010Dn\u00EDch technologi\u00ED pro su\u0161en\u00ED zemn\u00EDho plynu" . "P\u0159ehled adsorp\u010Dn\u00EDch technologi\u00ED pro su\u0161en\u00ED zemn\u00EDho plynu" . . "CHISA 2011 Sborn\u00EDk" . . "Princip adsorp\u010Dn\u00EDho su\u0161en\u00ED zemn\u00EDho plynu (ZP) spo\u010D\u00EDv\u00E1 v utkv\u00EDv\u00E1n\u00ED molekul vodn\u00ED p\u00E1ry na povrchu pevn\u00E9 l\u00E1tky v d\u016Fsledku p\u016Fsoben\u00ED povrchov\u00FDch sil adsorbentu. B\u011Bhem adsorpce neprob\u00EDh\u00E1 \u017E\u00E1dn\u00E1 chemick\u00E1 reakce, jde \u010Dist\u011B o povrchov\u00FD jev. Mno\u017Estv\u00ED adsorbovan\u00FDch molekul s rostouc\u00ED teplotou kles\u00E1 a s rostouc\u00EDm tlakem stoup\u00E1. Toho se vyu\u017E\u00EDv\u00E1 p\u0159i nastavov\u00E1n\u00ED provozn\u00EDch podm\u00EDnek adsorp\u010Dn\u00EDch linek. Adsorp\u010Dn\u00ED separa\u010Dn\u00ED za\u0159\u00EDzen\u00ED pracuj\u00ED v\u017Edy periodicky. F\u00E1ze adsorpce se pravideln\u011B st\u0159\u00EDd\u00E1 s desorpc\u00ED, p\u0159i kter\u00E9 se adsorbent regeneruje. Desorpce se dosahuje zm\u011Bnou intenzivn\u00ED veli\u010Diny (tlak, teplota), kter\u00E1 ovliv\u0148uje adsorp\u010Dn\u00ED rovnov\u00E1hu. Adsorp\u010Dn\u00ED syst\u00E9my u\u017E\u00EDvan\u00E9 p\u0159i zpracov\u00E1n\u00ED ZP jsou hlavn\u011B tyto: 1. Su\u0161en\u00ED k dosa\u017Een\u00ED velmi n\u00EDzk\u00E9ho obsahu vody (<1 ppm) 2. Su\u0161en\u00ED plyn\u016F obsahuj\u00EDc\u00EDch H2S (s \u010Di bez soub\u011B\u017En\u00E9ho odstra\u0148ov\u00E1n\u00ED H2S) 3. Soub\u011B\u017En\u00E1 extrakce vody a C5+ uhlovod\u00EDk\u016F"@cs . . "P(FR-TI1/173), S" . . "2011-10-24+02:00"^^ . "P\u0159ehled adsorp\u010Dn\u00EDch technologi\u00ED pro su\u0161en\u00ED zemn\u00EDho plynu"@cs . "Netu\u0161il, Michal" . "21220" . . . "Overwiev of Adsorption Technologies for Natural Gas Dehydration"@en .