IDEA #98NZH6 ELECTRODISCHARGE TREATMENT OF NATURAL ADSORBENTS FOR SEPARATION IMPURITIES FROM THE WASTEWATER OF POLYMERIC ENTERPRISES

power economy Description The basic regularities and physical mechanisms of activation porous synthetic and natural adsorbents by means of no equilibrium electric discharges are revealed. Influence of electric discharges (barrier, torch or corona types) on adsorption process is one of process control facilities. The reason of increase adsorption abilities of adsorbents (clynoptylolite, bentonite clay, zeolite, silicagel) is formation of the charged condition on a surface or in volume of a material under influence of an electric field and the discharge. Efficiency of the electric discharge effect on sorption processes is determined by an opportunity of direct interference in sorption process proceeding, small and manufacturability. consumption, Innovative Aspects and Main Advantages The opportunity and perspectives of electrodischarge activation the natural and synthetic porous structures for increasing its adsorption properties are established. It is revealed, that at effect of electric discharges in air on a surface of porous adsorbents the formation of a charged condition in a material that leads to essential growth of adsorbents’ adsorption properties is observed. Areas of Application: Adsorption clearing of wastewater including from the ecologically harmful impurities. Stage of Development Laboratory tested technology of separation impurities from the wastewater using of electrically charged natural adsorbents. ELECTRODISCHARGE TREATMENT OF NATURAL ADSORBENTS FOR SEPARATION IMPURITIES FROM THE WASTEWATER OF POLYMERIC ENTERPRISES Fig.1. Electrical scheme Electrization of adsorbent samples. Fig.2. A thermostimulated current curve definition of the charge quantity which has been saved in samples. Contact Details Institute of Physics Contact person: Hasanov Magerram Annagi ogli Address: 33, H. Javid Avenue AZ1143, Baku, Azerbaijan Tel: (994 12) 439 3263 Fax: (994 12) 439 5961 E-mail: magerram-hasanov@rambler.ru
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