Close Control Air Conditioners

Close Control Air Conditioners
Close Control Air Conditioners

Optional Features

  • Temperature, humidity and indoor air quality control
  • Variable air flow with EC or plug type fans provide energy efficiency
  • Electronic expansion valve
  • Improved electronic control panel that enables the unit to be programmed weekly and creates fully automated working possibility.
  • Ability to connect to the building management system with a remote control
  • Two steps filtration (G4+F7)
  • Water cooled models
  • Temperature and humidity tolerances; +/- 1°C DB, +/-%2 RH
  • Chilled water models
  • Units suitable for extreme temperatures such as 45°C
  • Custom design for special project and flexible production

High Sensible Heat Ratio

System rooms, museums, panel rooms, electronic equipment rooms, computer rooms and telecommunication systems require a different air qualities than comfort climatization. İmbat units prevent oxidisation, data loss, overheating, early damage and physical malfunction on the back-up units.

Automatic Humidification And Dehumidification

High humidity ratio will cause condensation on the unit and low humidity causes oxidation on magnetic surfaces. This may result in data loss or general malfunction on the equipment. The temperature values of İmbat products will always be required temperature and humidity conditions. Temperature tolerance can provide +/-%1°C and the humidity tolerance can provide at +/-%2 RH.


WHAT MAKES İMBAT DIFFERENT

Free Cooling

Direct free cooling uses in between %0-%100 fresh air providing minimum energy waste and therefore maximum energy efficiency.

High Efficiency

İmbat units are designed to provide maximum energy efficiency. The heat transfer surfaces on the condenser and evaporator come as a standard feature.

Asymmetrical Cooling

Is the application of using multiple capacity compressors on a single circuit cooling system. Since multiple compressors at different capacities are connected to a single evaporator and condenser circuit, under partial load, condensation is performed at low temperatures and evaporation is performed at high temperatures. In this system, three step capacity control and up to 35% efficiency increase under partial load is obtained. Multiple compressor systems tend to have a longer lifespan and energy saving features due to its steps capacity control abilities. In only a very small amount of time the units operate at maximum capacity. Thus, asymmetric cooling application is vital for energy efficiency.