MCC-MCE-HBR
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Hybrid cooler HBR Series The closed circuit cooling towers can be also supplied in HYBRID version. That is a tower that can work both in evaporative (wet) and in dry mode depending on the ambient temperature or on the temperature of the fluid to be cooled. With the HYBRID system Hybrid cooler HBR Series (MITA HBR models) the water and/or the energy consumption can be optimized or considerably reduced. HBR takes advantage of the evaporative efficiency only when it is necessary, so that the fluid can be cooled to a temperature that is very close to the wet bulb temperature (wet mode). Alternatively, it takes advantage of the efficiency of the air cooling in order to achieve a fluid temperature close to the ambient dry bulb temperature (dry mode). The peculiarity of HBR coolers is that they are equipped with two separate circuits: • One or more wet heat exchanging coils made of smooth, hot dip galvanized tubes located inside the unit’s casing. • Two dry heat-exchanging coils made of copper tubes and fins in aluminum located on the air inlet openings, outside the unit. SUMMER Evaporative function (wet mode) • The fluid to be cooled flows inside the smooth tubes coils • The spraying pump is ON Distinguishing features • Unique design: Peculiar geometry and position of the two heat exchangers. They are easily accessible for maintenance operations. • Extremely reduced consumptions: the HBR cooler is designed to “consume” the bare minimum in terms of water and energy. Within the space of a year it takes advantage of the most appropriate type of cooling depending on the actual climatic conditions. • Maximum efficiency of wet function (summer): The fluid flows inside the smooth tubes heat exchanger and it is cooled by evaporation. The finned tubes’ coils are in stand-by. • Maximum efficiency of dry function (winter): The fluid flows inside the finned tubes heat exchangers and it is cooled by air. The smooth tubes’ coil is in stand-by. Only the necessary energy for the air circulation • Axial fans in suction mode • Finned tubes coils in stand-by. through the finned coils is consumed. • Cost-effective control: The system is electronically controlled by a PLC. The cabinet can be supplied pre-wired (in the factory) on the unit’s casing or it can be provided by the customer. • Long working life: Naturally corrosion-free materials resistant over time. Solutions to simplify and speed up maintenance operations. https://www.immobiliare.it/ vendita-case/milano/amendola-buonarroti/ FLUID INLET Easy access FLUID INLET Coil wetting system Smooth tubes coil FLUID OUTLET FLUID OUTLET FLUID INLET Evaporative coolers Evaporative condensers Hybrid coolers FLUID INLET Finned coil No water / fins contact Easy access FLUID OUTLET FLUID OUTLET WINTER Air cooling function (dry mode) • The fluid to be cooled flows inside the finned coils • The spraying pump is OFF • Axial fans in suction mode cooling technologies Via del Benessere, 13 27010 Siziano (PV) - Italy +39 0382.67599 - info@mitact.it Gestione Qualità Certificata

Construction features Closed circuit evaporative cooling towers MCC Series The MCC series closed circuit evaporative cooling towers are employed as an alternative to open-type cooling circuits with heat exchangers, in those cases in which the cooling fluid for the user’s equipment (generally water or water with glycol) must maintain its chemical and physical characteristics constant over time and unpolluted by external elements. In fact the fluid to be cooled circulates within the tubes constituting the heat exchanger coil placed inside the cooling tower: the coil, in turn, is continuously...

Construction features Closed circuit evaporative cooling towers MCC Series The MCC series closed circuit evaporative cooling towers are employed as an alternative to open-type cooling circuits with heat exchangers, in those cases in which the cooling fluid for the user’s equipment (generally water or water with glycol) must maintain its chemical and physical characteristics constant over time and unpolluted by external elements. In fact the fluid to be cooled circulates within the tubes constituting the heat exchanger coil placed inside the cooling tower: the coil, in turn, is continuously...

Construction features Closed circuit evaporative cooling towers MCC Series The MCC series closed circuit evaporative cooling towers are employed as an alternative to open-type cooling circuits with heat exchangers, in those cases in which the cooling fluid for the user’s equipment (generally water or water with glycol) must maintain its chemical and physical characteristics constant over time and unpolluted by external elements. In fact the fluid to be cooled circulates within the tubes constituting the heat exchanger coil placed inside the cooling tower: the coil, in turn, is continuously...

Hybrid cooler HBR Series The closed circuit cooling towers can be also supplied in HYBRID version. That is a tower that can work both in evaporative (wet) and in dry mode depending on the ambient temperature or on the temperature of the fluid to be cooled. With the HYBRID system Hybrid cooler HBR Series (MITA HBR models) the water and/or the energy consumption can be optimized or considerably reduced. HBR takes advantage of the evaporative efficiency only when it is necessary, so that the fluid can be cooled to a temperature that is very close to the wet bulb temperature (wet mode)....

Hybrid cooler HBR Series The closed circuit cooling towers can be also supplied in HYBRID version. That is a tower that can work both in evaporative (wet) and in dry mode depending on the ambient temperature or on the temperature of the fluid to be cooled. With the HYBRID system Hybrid cooler HBR Series (MITA HBR models) the water and/or the energy consumption can be optimized or considerably reduced. HBR takes advantage of the evaporative efficiency only when it is necessary, so that the fluid can be cooled to a temperature that is very close to the wet bulb temperature (wet mode)....