WATER PROCESSING EQUIPMENT

Brand Owner (click to sort) Address Description
ACTIVATOR Atlantis Technologies Ltd. Beit Omer, Beit Hadefus 22 Jerusalem Israel water processing equipment, apparatus or machines consisting of microprocessor and electro-chemical cells for converting water and salt into solutions for use in laundering or cleaning;
BEV Blandi, John T. 923 S. Nevada Drive Longview WA 98632 water processing equipment;
ENHANCING WATER'S NATURAL PROPERTIES H2O Technologies, Ltd. 4011 S.E. International Way, Suite 604 Milwaukie OR 97222 WATER PROCESSING EQUIPMENT, NAMELY WATER FILTERING UNITS AND WATER CONDITIONING UNITS FOR USE IN GROUNDWATER DECONTAMINATION, HVAC SYSTEMS, WATER SUPPLY LINES AND ANIMAL HUSBANDRY UNITS;
H2O H2O Technologies, Ltd. 4011 S.E. International Way, Suite 604 Milwaukie OR 97222 WATER PROCESSING EQUIPMENT, NAMELY WATER FILTERING UNITS AND WATER CONDITIONING UNITS FOR TREATING WATER FOR USE IN GROUNDWATER DECONTAMINATION, WATER SUPPLY LINES AND ANIMAL HUSBANDRY UNITS;H2O;
H2O OXYGEN POLISHED H2O Technologies, Ltd 600 University Street, Suite 2002 Seattle WA 98101 water processing equipment, namely, water filtering units and water conditioning units;H2O OXYGEN;
PROTEUS WASHING SYSTEMS 167 Commerce Drive Loveland OH 45140 Water processing equipment, namely, water conditioning units consisting of microprocessor and electro-chemical cells for converting water and salt into solutions for use in commercial, industrial and institutional settings, in commercial and institutional laundries and in food and beverage preparation facilities;
WATER ACTIVATOR Atlantis Technologies Ltd. Beit Omer, Beit Hadefus 22 Jerusalem Israel water processing equipment, apparatus or machines consisting of microprocessor and electro-chemical cells for converting water and salt into solutions for use in laundering or cleaning;
 

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

    
Technical Examples
  1. A method, system, and program storage device for implementing the method of controlling a manufacturing system, wherein the method comprises providing a plurality of workpieces to be processed on a processing tool, the plurality of workpieces located at processing stations prior to the processing tool, determining auxiliary equipment allocation needs for the processing tool based on characteristics associated with the plurality of workpieces prior to the workpieces arriving at the processing tool, and sending auxiliary equipment to the processing tool based on the allocation needs prior to the workpieces arriving at the processing tool. According to an embodiment of the invention, the processing tool comprises a photolithographic system, the auxiliary equipment comprises a reticle, and the plurality of workpieces comprise semiconductor substrates.