closed circuit systems
DESCRIPTION
eweeTRANSCRIPT
Since 1960, market leader in civil and industrial process cooling
CLOSED CIRCUITCooling Systems
characterized by:
Low Power Consumptionand
Non-Corroding Materials
MCC/E SeriesEvaporative coolers/
condensers
HBR SeriesHybrid coolers
(evaporative/dry cooling)(European patent pending)
PAD SeriesAdiabatic coolers/
condensers
NEW!
Since 1960 MITA S.r.l. has been designing and offering solutions to dis-sipate the excess heat from any process. Thanks to the long experience and the wide range of available products it is possible to find the optimal cooling system for any plant.
MITA range is composed of open circuit and closed circuit cooling systems characterized by:
�Low installed power;�Naturally non-corroding materials;�Wide and easy access to the internal components to simplify
and speed up the routine maintenance;�Pre-assembled modules designed to facilitate the final stages of
the installation, making them fast and economical.
In order to suggest the best cooling system, both from the technical and from the economical point of view, it is necessary to carefully evaluate the cooling parameters, the specific plant factors and the environmental requirements.
MITA is able to propose all closed circuit cooling systems, classified according to the main cooling principles: cooling by water, cooling by air and cooling by a combination of water and air.
Closed circuit systems, evaporative cooling:
�MCC range (MCE for evaporative condensers) The refrigerant to be condensed or the process fluid to be cooled flows
inside the coils and it is not in direct contact with the environment. The cooling is called “evaporative” (wet) when the air flow cools the
coils by evaporation of a part of the water sprayed on them.
Closed circuit systems, hybrid cooling:
�HBR range The process fluid to be cooled flows inside the coils and it is not in direct
contact with the environment. The cooling is called “evaporative” (wet) when the air flow cools the
coils by evaporation of a part of the water sprayed on them. The cooling is called “dry” when only air is used to cool the coils.
Closed circuit systems, adiabatic cooling:
�PAD Series The refrigerant to be condensed or the process fluid to be cooled flows inside
the coils and it is not in direct contact with the environment. The cooling is called “dry” when only adiabatically pre-cooled air is used to
cool the coils.
These systems are often used in case of small / medium cooling capacities, mainly with those users that require a closed circuit system for their cooling. That means that the water (or a mix of water and glycol, when the ambient temperature is very low) circulates in a closed circuit.
The cooling water remains totally pure because the closed system prevents its contact with the external environment.The choice of the suitable cooler must be evaluated on the basis of thermodynamic characteristics of the men-tioned cooling systems, of the specifications of the plant and of the user’s demands.
Necessary parameters in order to find the most suitable solution:
➤ Design data
➤ Installation town, climatic characteristics
➤ Period of operation, variable thermal load
➤ Availability or lack of water
➤ Focus on savings related to water consumption (evaporation, treatment, anti-freezing systems, pump)
➤ Focus on electric power savings.
Peculiarity of each system:
MCC
➤ Process fluid temperature close to the wet bulb temperature
HBR
➤ Optimization of consumptions in the space of a year
PAD
➤ Higher performances in comparison to a normal dry cooler.
HBR, Finned coilMCC / MCE / HBR, access to the coil
PAD, Finned coilPAD, Flocked PVC humidifier pack
Via Antonio M. Fontana, 1 Tel. +39 0382.67.599
www.mita-tech.it
I - 27010 Siziano (PV)Fax +39 0382.617.640e-mail: [email protected]
CO
ND
EN
G •
10-
12
Location France
Application field Metal process
Capacity, kW 300
Type PAD 8/4
Location Greece
Application field HVAC
Capacity, MW 1,2
Type MCE Q2 Silent
Location Italy
Application field Plastic process
Capacity, kW 240
Type PAD 4/6
Location Poland
Application field Cogeneration
Capacity, MW 1
Type MCC Q2-D
Location Italy
Application field HVAC
Capacity, MW 2,7
Type MCC P3 Silent
Location Sweden
Application field Energy
Capacity, MW 5
Type MCC P3 Silent
Some recent installations