Dropdown ceiling fan coil unit with Coanda air distribution effect.

The Evolution Of The FCU
Fcu Coanda Booster fully complies with the Indoor Air Quality requirements (noise parameters, speed and air turbulence) of modern plants. 

FCB is a compact unit easy to install that combines the efficiency and flexibility of the classic fan coil with the comfort benefits of an induction air diffuser. The unit is standard with EC motor and the special plenum with inlet air diffuser with adjustable flaps; FCB works at low temperatures, heat or refresh and manages the humidity in the rooms. 

Fcu Coanda Booster is ideal for buildings such as offices, medical facilities and meeting rooms available in three different sizes (600-1200-1800 mm); the airflow is in accordance with Eurovent rules (first class).

Details
  • Category
    Ducted Heat Pump Systems, Split System Heat Pumps
  • Range
    Fan Coil Units
  • Brand
    Aertesi - Italy
Specifications

FCB: comfort, energy saving and efficient use of space.

  • Casing: the panels are manufactured by 1,00 mm galvanized steel. The robust structure avoids vibrations and includes fixing brackets for under-ceiling installation. 
  • Access: is provided through a single removable panel, from the bottom side. This panel covers the coil the condensate tray and the fan deck. 
  • Filter: it is G1 (EN779), easily removable from the bottom side for cleaning and replacement. 
  • Fans: EC brushless motor, with thermic protection. Fans are direct drive, forward curved, double inlet centrifugal type. Impeller housing is manufactured by galvanized steel, impeller is manufactured from aluminum. Motor and impeller are balanced. Motor assembled on rubber antivibrations, motor protection IP20. 
  • Coil: is manufactured from 3/8” copper tubes, mechanically expanded in aluminum fins. Equipped with vent and drain valve. Standard handing is right on request left handing. Nominal pressure PN10. 
  • Condensate tray: is made by galvanized steel, painted for rust protection. Discharge pipe and all the corners are brazed, to avoid leakage also after a long time. The pan is externally insulated with thermic foam. 
  • Insulation: the thermal and acoustic insulation provided is class “1”. In the fan coil body is chemically cross-linked PE, closed-cell, for fire protection; in the plenum supply it is of open cell polyurethane foam resin based on polyester type self-extinguish UL 94 AUHF1 with indented profiling. 
  • Supply grille: supply grille is manufactured by aluminum, with four rows of blades adjustable in three positions: left, right and vertical flow.

Fan Coil Booster

  • Centrifugal Fan: Cooling efficiency with water temperature as chilled beam (15/18° C). 
  • Environmental Conditions: FCB works with a chilled water systema, and grants high power cooling/heating. 
  • EC Brushless Motor: EC Brushless Motor allows accurate and precise regulation of the fan limiting the power of the effective workload, without any useless waste. 
  • Easy Drain: Equipped with condensate drain pan. 
  • Coanda Effect: Diffusers with Coanda effect. 
  • Silent: Noiseless unit with adjustable air diffuser. 
  • 100% Of Performance: High energy efficiency and low power consumption of the plants. 
  • For False-Ceiling: False ceiling installation. 
  • 2/4 Pipes System: Internal exchanger 2 or 4 pipe.
SolutionAir
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About the
Seller

SolutionAir offer innovative products and advanced solutions, to protect our living environment and enhance our personal well-being. Adequate ventilation within a building ensures good air quality, by removing toxins and CO2. It also helps to control humidity, thus reducing the risk of condensation.

Our living conditions are changing. What once was the norm, today is becoming unobtainable. Changes to the Unitary Plan in Auckland, increases in industrial investment, increases in noise pollution are contributing to changing our lives as they once were.

Residential buildings are also changing to keep pace with an ever-changing environment, new building requirements, new materials and the introduction of new technologies.

New Zealanders are slowly coming to the realisation that in winter our houses are actually cold, humid and damp, and that mould spores are the cause of many respiratory illnesses such as asthma.

The World Health Organisation and the Global Initiative for Asthma predicts that by 2025, some 400 million to 450 million people will have asthma. A New Zealand-led assessment, which combines previous studies, estimates that about 5 per cent of the global population, suffers of asthma. The rate among New Zealanders is 15 per cent. Should these numbers call for warmer homes, better insulated homes, healthier homes as a whole? We believe so!

Solutionair

Energy efficiency and thermal comfort can also be enhanced. Air quality can be affected by a number of impurities, such as low-level irritants (dust, pollen) right through to radon and volatile organic compounds. In humid or colder areas, and particularly in uninsulated buildings, there is also a significant potential for condensation when humidity levels are too high, and this can result in mould growth and various health issues like asthma.

The market is currently saturated with wrong or misleading information. One such misleading example is that you can vent your house by opening windows and doors for a few minutes. This process is known as natural ventilation.

International studies have shown that to ensure adequate ventilation by natural means, the windows in a reasonably well-sealed home would have to be opened at least four to six times a day for a reasonable amount of time (around 10 to 20 minutes, depending on the size of the home, openable window area, prevailing ambient conditions, etc). Now refer this to a cold winter’s day when you have just spent the entire morning trying to heat it up. Opening windows and doors to introduce much needed fresh air is going to push all the heat you have generated and paid for out of the window and simultaneously it will introduce cold air. Not the ideal result we should be looking for.

Take positive pressure ventilation as an alternative solution. This is the process of pushing roof air into your house. Air that has to find a way out of the building envelope in order to take stale/moist air and pollutants out of your home. Unless the home offers dedicated escape routes for this air to exit the building envelope, air will start to exit your home through power points, downlights and other unconventional openings in the house. Once stale/moist air starts exiting your home through power points, it will start to rot your house from the inside out. As there is no escaping the building paper and gib cavity the timber will start to absorb this moisture to the point of saturation and then it will start to rot. Once again, not the ideal result we should be looking for.

None of the above is not a new phenomenon, in fact many countries around the world have been working on how to deliver fresh air ventilation while keeping heat inside your home. Maybe because some countries have much harsher winter conditions, they have had to find a solution faster than we in New Zealand. The advantage we now have is that such solutions have been developed by internationally acclaimed companies such as Blauberg and Maico from Germany or Utek, Elicent and Aertesi from Italy.

Solutionair is privileged to have been representing these companies in New Zealand and to be in a position to benefit from years of experience to help New Zealanders find a solution for their home ventilation.

Talk to us - our solution is air!

At ArchiPro we recognise and acknowledge the existing, original and ancient connection Aboriginal and Torres Strait Islander peoples have to the lands and waterways across the Australian continent. We pay our respects to the elders past and present. We commit to working together to build a prosperous and inclusive Australia.