REGENERATION

Brand Owner (click to sort) Address Description
GEORESOURCE REGENERATION Asia Pacific Environmental Technology, Inc. 1088 Bishop Street, Suite 1130 Honolulu HI 96813 REGENERATION;Waste management;
LUBE AGAIN WHITMORE MANUFACTURING COMPANY, THE 930 Whitmore Drive Rockwall TX 75087 REGENERATION, RECLAMATION, AND REFINING OF INDUSTRIAL LUBRICANTS;LUBRICATE AGAIN;THE STIPPLING AS SHOWN IS A DESIGN FEATURE OF THE MARK NOT INTENDED TO INDICATE COLOR.;
RE: GENERATION GenSheng 250 Ashland Place Ste 43A Brooklyn NY 11217 REGENERATION;Bandanas; Belts; Blazers; Blouses; Coats; Denim jackets; Denim jeans; Denim pants; Dresses; Gloves; Hats; Jackets; Jumpsuits; Knitwear, namely, dresses, sweaters, cardigans, pants, tops; Pants; Scarves; Shirts; Shoes; Shorts; Skirts; Socks; Sweatshirts; T-shirts; Underwear;On-line retail store services featuring fashion and clothing accessories, bag, jewelry and eyewear accessories and related goods;
REGEN BLACKLIDGE IP 10480 Reichold Rd. Gulfport MS 39503 REGENERATION;Chemical additives for reclaimed asphalt;
REGENAIRATION REGENAIRATION, Inc. 2324 North Batavia Street, Suite 115 Orange CA 92865 REGENERATION;Color is not claimed as a feature of the mark.;Air purifiers;
REGENERATION THROUGH INNOVATION UNIVERSITY OF PITTSBURGH OF THE COMMONWEALTH SYSTEM OF HIGHER EDUCATION 1700 Cathedral of Learning Pittsburgh PA 15260 REGENERATION;Medical research into the repair or replacement of tissues and organs impaired by disease, trauma, or congenital abnormalities; research in regenerative medicine; medical research directed toward developing clinical protocols and therapies for regenerative medicine;
THE NEXT REGENERATION Nanotope, Inc. Suite #450 8025 Lamon Avenue Skokie IL 60077 REGENERATION;Research and development of medical products in the field of medical regeneration;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. In a method for operating a flue gas purification plant (10) including a plurality of parallel of absorber chambers (11), in which in each absorber chamber (11), CO and NO are simultaneously oxidized by a catalyst in a first absorber (15) according to the SCONOx principle and the resulting NO2 is absorbed on the catalyst surface, in which SO2 is furthermore oxidized by a catalyst in a second absorber (14) upstream of the first absorber (15) according to the SCOSOx principle and the resulting SO3 is absorbed on the catalyst surface. The absorber chambers (11) are successively regenerated by a regeneration gas containing hydrogen and/or hydrogen compounds in regularly repeating regeneration cycles affecting all the absorber chambers (11). In order to improve reliability and reduce operating costs in such a method, the regeneration time of the second absorber (14) within the regeneration cycle is respectively selected to be long enough to guarantee sufficient regeneration of the second absorber (14).