Complete Solutions for Your Olefin Purification Requirements

PURSORB® selective adsorbents for removing concerned contaminants in either a regenerative or non-regenerative operating mode

Ethylene and propylene producers have faced the challenge of contaminants for decades. As catalyst technology for the production of polymers advances, the need for high-purity olefin process streams has become even more critical. The sensitivity to deactivation of the new generation of high activity/yield polymerization catalysts currently applied in the production of polyethylene, polypropylene and polystyrene mandates the removal of all trace contaminants in the feed streams to ultra-low effluent specifications.

 

Contaminants of concern include H2O, CO2, COS, H2S, NH3, oxygenated hydrocarbons (alcohols, aldehydes, ketones, peroxides, ethers, etc.) and even AsH3, PH3. Selective adsorbents, both molecular sieve and modified alumina-based adsorbents, have been successfully used to help olefin producers manage their operations as contaminated feeds and increasingly sensitive polymerization catalysts continue to offer them increasing challenges. Ultra-low effluent specifications for these concerned contaminants are attainable with the use of PURSORB® selective adsorbents in either a regenerative or non-regenerative operating mode.

Publications

Download Petrotat Olefin Purification Catalogue

Applications of Selective Adsorbents in Olefin Purification Fields

Products & Solutions:

Metal Oxide-Based Adsorbents for:

PURSORB® C-98-I :

CuO Based Adsorbent for Removal of traces of arsine and other reactive compounds  from Unsaturated hydrocarbons in vapor or liquid phase.

PURSORB® C-98-II :  

PbO Based Adosorbent for Removal of traces of arsine other reactive compounds from Saturated hydrocarbons in vapor or liquid phase, with ultra-low outlet.

PURSORB® C-01: 

Ag Based Adsorbent for Removal of traces of arsine, and other reactive compounds from Cracked gas or liquid, with 1 ppbw outlet limitation.

PURSORB® C-98-I :

CuO Based Adsorbent for Removal of traces COS, H2S and other reactive compounds from Unsaturated hydrocarbons in vapor or liquid phase.

PURSORB® C-98-II :  

PbO Based Adosorbent for Removal of traces of COS, H2S and other reactive compounds from Saturated hydrocarbons in vapor or liquid phase, with ultra-low outlet.

PURSORB® 513-1 :  

MnOx Based Adsorbent for for Catalytic removal of Sulfur compounds and others from ethylene, with effluent limitation at 100 ppbw.

PURSORB® C-18 :  

Cu/ZnO Based Adsorbent for Catalytic removal of Sulfur compounds and others from ethylene, with effluent limitation at 100 ppbw.

PURSORB® CZ-1:

CuO/ZnO/ZrO2 Based Adsorbent for Removal of CO from gas or liquid Unsaturated hydrocarbons streams at ambient temperatures, with effluent limitation at 30 ppbw.

PURSORB® CZ-2 :  

CuO/ZnO/CeO2 Based Adsorbent for Removal of CO from gas or liquid unsaturated hydrocarbons at ambient temperatures, with effluent limitation at 10 ppbw.

PURSORB® C-18 :  

Cu/ZnO Based Adsorbent for Catalytic removal of CO from ethylene, with effluent limitation at 100 ppbw.

PURSORB® C-98-I :

CuO Based Adsorbent for Removal of traces COS, H2S and other reactive compounds from Unsaturated hydrocarbons in vapor or liquid phase.

PURSORB® C-98-II :  

PbO Based Adosorbent for Removal of traces of COS, H2S and other reactive compounds from Saturated hydrocarbons in vapor or liquid phase, with ultra-low outlet.

PURSORB® 513-1 :  

MnOx Based Adsorbent for for Catalytic removal of Sulfur compounds and others from ethylene, with effluent limitation at 100 ppbw.

PURSORB® C-18 :  

Cu/ZnO Based Adsorbent for Catalytic removal of Sulfur compounds and others from ethylene, with effluent limitation at 100 ppbw.

PURSORB® C-98-I :

CuO Based Adsorbent for Removal of traces of phosphine and other reactive compounds from Unsaturated hydrocarbons in vapor or liquid phase.

PURSORB® C-98-II :  

PbO Based Adosorbent for Removal of traces of phosphine other reactive compounds from Saturated hydrocarbons in vapor or liquid phase, with ultra-low outlet.

PURSORB® 513-1 :  

MnOx Based Adsorbent for for Catalytic removal of Sulfur compounds and others from ethylene, with effluent limitation at 100 ppbw.

PURSORB® 513-1:  

MnOx Based Adsorbent for for Catalytic removal of Sulfur compounds and others from ethylene, with effluent limitation at 100 ppbw.

PURSORB® C-18 :  

Cu/ZnO Based Adsorbent for Catalytic removal of Sulfur compounds and others from ethylene, with effluent limitation at 100 ppbw.

PURSORB® MR-535:  

CuS Based Adsorbent for Removal of Hg from gas or liquid Unsaturated hydrocarbons at ambient temperatures,with effluent limitation at 10 ppbw.

Molecular Sieves & Activated Alumina Adsorbents for:

PURSORB® 3A-EPG:

Deep dehydration from ethylene with excellent dynamic water capacity and very low hydrocarbon co-adsorption.

PURSORB® 3A-EPG-2:  

With optimized pressure drop, Deep dehydration from ethylene, appropriate dynamic water capacity and very low hydrocarbon co-adsorption.

PURSORB® AA-200:  

Superior water adsorption capacity when applied at high inlet H2O concentrations.

PURSORB® 3A-PPG:

Deep dehydration from propylene with excellent dynamic water capacity and very low hydrocarbon co-adsorption.

PURSORB® AA-200:  

Superior water adsorption capacity when applied at high inlet H2O concentrations.

PURSORB® AA-01Z :

COS, CO2, H2S and CS2 removal from hydrocarbon streams and industrial gas.

PURSORB® MS-05Z :

Specially developed for Removal of water and methanol from unsaturated hydrocarbon streams, with very low heat release of adsorption.

PURSORB® MS-13Z :

  • Alcohols, aldehydes, ketones, ethers, and various carboxylic acids removal from liquid hydrocarbon feed streams.
  • Removal of oxygenates, mercaptans, sulfides and disulfides from C4 raffinate streams.
  • Oxygenated organic compound removal from feed monomer, feed comonomer, and recycle solvent streams in polymer production processes.

PURSORB® 13X-PG:

Dehydration and Oxygenated organic compound removal from feed monomer, feed comonomer, and recycle solvent streams in polymer production processes.

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