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Mechanical draft crossflow cooling tower used in an HVAC application Package crossflow cooling tower Typically lower initial and long-term cost, mostly due to pump requirements. Crossflow is a design in which the airflow is directed perpendicular to the water flow (see diagram at left).
The Building 440 is an insulated, refrigerated hangar. There is an office and instrumentation building, a cold-weather engine test cell, the refrigeration system, mechanical-draft cooling towers, and a steam-heating plant. [4] The main chamber is 252 feet (77 m) wide, 201 feet (61 m) deep, and 70 feet (21 m) tall at the center of the hangar.
Twenty-four mechanical draft cooling towers utilized water from the Cedar River as a heat sink. Facilities exist to process all contaminated water onsite and the DAEC operates with a "zero release" policy to not discharge any contaminated water back to the Cedar River.
The lake provides main cooling, and 7 additional Mechanical Draft "helper" cooling towers assist during limitations on water temperature. [ 1 ] [ 4 ] The 600 ft concrete chimney vents gases. [ 5 ] [ 4 ]
Cooling towers: 4 × Mechanical Draft [a] Cooling source: Mississippi River: Thermal capacity: 1 × 3091 MW th: Power generation; Units operational: 1 × 974 MW: Make and model: BWR-6 (Mark 3 Containment) Units cancelled: 1 × 934 MW 1 × 1520 MW ESBWR: Nameplate capacity: 974 MW: Capacity factor: 87.02% (2021) 81.90% (lifetime) Annual net ...
Cooling towers: 6 × Mechanical Draft: Cooling source: Altamaha River: Thermal capacity: 2 × 2804 MW th: Power generation; Units operational: 1 × 876 MW 1 × 883 MW: Make and model: BWR-4 (Mark 1) Nameplate capacity: 1759 MW: Capacity factor: 94.30% (2017) 81.25% (lifetime) Annual net output: 14,165 GWh (2021: External links; Website: Plant ...