THE REPLACEMENT OF THE EVAPORATIVE COOLING TOWER
Adiabatic Cooling
Reduced operating costs and safeguard of water resources.
Every day, huge quantities of fresh water are consumed through the use of traditional evaporative systems for the heat dissipation of industrial processes (cooling towers). The increasing shortage of water resources, the difficulty in finding them and the constantly increasing costs are pushing the industry towards this new technology, able to save up to 95% of water: adiabatic cooling. This technology also provides greater efficiency in heat transfer, reduced maintenance and the total absence of polluting chemical agents. Over 8,000 systems installed in each climate zone.
Patented adiabatic cooler: the replacement for evaporative cooling tower
Ecodry 3DK is a centralized closed-circuit adiabatic cooling system designed to replace the old cooling tower technology. Installed outside the system, it removes the heat extracted from the process, achieving:
- Better cooling performance with increased heat transfer efficiency
- Outstanding operating costs savings, resulting in a low Total Cost of Ownership
- New standards in terms of Environmental Impact, from both water footprint and total emissions
ADVANTAGES OF ADIABATIC COOLER
A fluid cooler with better performance
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Guaranteed operation with minimum water consumption and maintenance even in extreme climatic conditions, up to 50 °C (122 ˚F) ambient air temperature.
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Safe winter operation without glycol down to an ambient temperature of -40 °C (-40 ˚F).
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High energy savings of fans in partial load operation.
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Compact installation with minimal floor space required between modules.
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High reliability with electrical redundancy and built with 100% non-ferrous materials.
FEATURES OF ECODRY 3DK
Total control
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Maximum water temperature to process: 30/35 °C (86/95 ˚F).
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Cooling capacity: 50 – 10,000 kW (14 – 2,845 tons).
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Water flow to process: 10 – 2,000 m3/hr (45 – 8,805 gpm).
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High efficiency adiabatic chamber for air pre-cooling, for operation in ambient temperatures up to 50 °C (122 ˚F).
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Drainable configuration to prevent freezing.
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Heat exchangers with a wide exchange surface, with copper tubes and aluminum fins with hydrophilic protection.
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Axial fans with DC motors, brushless, inverter driven and individually connected.
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Modular design with pre-assembled stainless steel connection manifolds.
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Stainless steel structure and aluminum access panels.
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