COOLING TOWERS

Brand Owner (click to sort) Address Description
AQUA-SAVE M. K. Engineering, Inc. 43 Homestead Ave. Stamford CT 06902 Cooling Towers;The drawing is lined for the color blue, but color is not claimed as a feature of the mark.;
BAC BALTIMORE AIRCOIL COMPANY, INC. 7600 Dorsey Run Rd JESSUP MD 20794 COOLING TOWERS, EVAPORATIVE CONDENSERS AND COMPONENTS THEREOF;
BALANCE CLEAN Baltimore Aircoil Company 7595 Montevideo Road Jessup MD 20794 cooling towers;
ENDURADRIVE BALTIMORE AIRCOIL COMPANY, INC. 7600 Dorsey Run Rd JESSUP MD 20794 Cooling towers, fluid coolers and heat exchangers;
EVEREST SPX Cooling Technologies, Inc. 7401 West 129th Street Overland Park KS 66213 cooling towers;
F 7000 BALTIMORE AIRCOIL COMPANY, INC. 7600 Dorsey Run Rd JESSUP MD 20794 cooling towers;
HY-LINE J. F. PRITCHARD & CO. OF CALIFORNIA 4625 ROANOKE PARKWAY KANSAS CITY MO COOLING TOWERS;
KEYSTONE J. F. PRITCHARD & CO. OF CALIFORNIA 4625 ROANOKE PARKWAY KANSAS CITY MO COOLING TOWERS;
MD DENALI SPX Cooling Technologies, Inc. 7401 West 129th Street Overland Park KS 66213 Cooling towers;
NC EVEREST SPX Cooling Technologies, Inc. 7401 West 129th Street Overland Park KS 66213 Cooling towers;
PANORAMA GEA Integrated Cooling Technologies, Inc. 143 Union Boulevard, Suite 400 Lakewood CO 80228 cooling towers;
RECOLD MARLEY COOLING TOWER COMPANY, THE 5800 FOXRIDGE DRIVE MISSION KS 66201 cooling towers, fluid coolers, evaporative condensers and parts thereof;
RECOLD SPX Cooling Technologies, Inc. 7401 West 129th Street Overland Park KS 66213 cooling towers, fluid coolers, evaporative condensers and parts thereof;
UBT COOLING TOWERS EVAPCO, INC. 5151 Allendale Lane Taneytown MD 21787 cooling towers;COOLING TOWERS;
UNIBASIN SPX Cooling Technologies, Inc. 7401 West 129th Street Overland Park KS 66213 Cooling towers;
 

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

    
Technical Examples
  1. The broadcasting tower selecting method for selecting one broadcasting tower out of a plurality of broadcasting towers each being able to transmit together broadcast waves on a plurality of channels that can be received in an area, including: a first step of judging an existence or not of the channels that can be received in the area; a second step of extracting, based on a result from the judgment in the first step, one or more broadcasting towers that can provide all channels being receivable in the area out of the plurality of the broadcasting towers; and a third step of selecting one arbitrary broadcasting tower out of the extracted one or more broadcasting towers. Thus, it is possible to select automatically, with an easy operation, a broadcasting tower that can provide best video and audio quality, out of a plurality of broadcasting towers.