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Hydor Wall or Inline Exhaust Fans – a QUALITY brand for residential, commercial and industrial exhaust or supply air application. Directly connects to standard diameter circular ducting.
The handy EF fan range is ideal for smaller growing spaces and the square face plate can be removed from the fan, leaving only the cylindrical fan body for installation into flexible ducting, or a grow tent’s ducting sleeve (Using ether a ducting clamp, or even cable ties). The 2 shuttering flaps on the rear end of the fan can also be removed, to further trim down the unit for installation in side of ducting.
Features:
Sustainable for mounting in kitchens, bedrooms, toilets, etc.
Streamline design.
Easy installation and cleaning.
Low noise.
Maintenance free.
Does NOT come equipped with a plug. The unit only has a short length of 2-core electrical wire connected to the fan motor.
Hydor warranty: Products of its manufacture when not misused or neglected to be free of defects in workmanship and/or materials. Our obligation under this warranty is limited to repairing or exchanging F.O.B. factory, any part, assembly or portion found to be defective within one (1) year from the date of commissioning but not to exceed eighteen (18) months from date of shipment from our factory.
EF-1009 Inline Fan = 90 m3/h – can be connected to 100mm ducting
EF-1530 Inline Fan = 300 m3/h – can be connected to 150mm ducting
Hydor Wall or Inline Exhaust Fans Specifications:
Performance:
 Wiring
How to work out the size and type of fan required:
In order to provide adequate ventilation for a given application, it is essential the
correct size, type and number of units are selected. Selection of the correct fan depends on two
principal factors: the performance and application.
Step 1
Determine which mounting arrangements meet your requirements
Step 2
Calculate the VOLUME of the room in cubic metres (m3) by multiplying the lenght x width x height.
Step 3
How many air changes (AC/H) are required.Work out how fast one complete ‘air change’ needs to be carried out under warm conditions (i.e the maximum you will ever need the fan to operate).If excess heat in a certain growing environment is a common problem, or there is a large volume of plants growing in a very restricted space you will need more air flow per hour than for a larger growing area which doesn’t suffer from too much heat build up with smaller plants.Growers commonly underestimate just how much ‘air exchange’ is required to remove excess heat and humidity, bring in fresh CO2 and generally create fresh air movement over all of the plant surfaces. As a comparison to greenhouse crops growing in full sunlight – one air change per minute or 60 air changes an hour are often aimed for with large, mature crops growing under warm, humid conditions. However, in a grow room situation, one complete air change obtained in 4-5 minutes is acceptable. Obviously this needs to be more frequent (one complete air change in 2-3 minutes) where lighting is creating a lot of extra heat to be removed or when a CO2 generator is being used.
Step 4
Use the following formula: Volume (m3) x AC/H = Airflow (m3/h)
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