Instructions / Assembly
3
How does an
Evaporative Air Cooler work?
COOL ~ EFFICIENT ~ NATURAL
Evaporative air cooling is the natural way
of cooling, similar to a breeze flowing
across a lake. This breeze lowers the
temperature and has a relaxing cooling
effect on people.
An evaporative air cooler cools the air by
means of the evaporation of water. When
water evaporates into the air, the result is
a mixture of air and water molecules.
This chemical change requires heat, thus
energy or latent heat is taken from the
air molecules - dropping the actual
temperature of the air.
The recommended maximum humidity
level is 60% or less, to allow a noticeable
temperature decrease* and helps people
to feel more comfortable. The tempera-
ture decrease* will be larger in dryer
climates because the lower the humidity,
the more evaporation occurs.
When used for cooling, the evaporative
air cooler should not be used in enclosed
spaces. It must be kept level and there
must be water in the water tank. The
room should have doors and windows
opened to allow free air flow. An evapo-
rative air cooler works best when placed
near an open window. Fresh air is drawn
into the cooler, circulates in the room and
exits via the door. The maximum cooling
effect is felt when a person is in the flow
of air coming out of the evaporative air
cooler.
Evaporative air coolers can also be used
to humidify dry air during the cool
weather months. To be used for humidifi-
cation, the windows and doors should be
closed. This allows the humidified air to
accumulate.
An evaporative air cooler is not an air
conditioner as it does not use a
compressor and refrigerant gas. One
should not expect an evaporative air
cooler to work as effectively as
refrigerated air conditioning. However,
the advantages of the evaporative air
cooler over refrigerated air conditioning
are:
Low purchase cost
Low electricity usage
Environment friendly (No refrigerant gas)
Maximum portability
Evaporative Air Cooling Mechanism
MEDIA
Why we use honeycomb cooling media?
- The Cooling efficiency of
honeycomb cooling media is
much higher than any other
cooling media due to greater
surface area for transfer of
humidity to the passing air.
COMPARED TO AIR CONDITIONERS
+
80%
Energy
No Compressor
Efficient
+
Energy Cost = ( (Wattage x No. of hrs/day x No. of days/year) / 1000 ) x per unit cost (kWh)
For Example : Energy Cost for Split 6000 BTU Air Conditioner = ( (600 Watts x 16 hrs/day x 30 Days) / 1000) x 5 US$ (Cost per unit) = 1440 US$
Energy Cost for Evaporative Air Cooler = ( (100 Watts x 16 hrs/day x 30 Days) / 1000) x 5 US$ (Cost per unit) = 240 US$
Calculation shown above is with reference figures, please be sure to calculate your energy savings based on actuals.
* Under tested conditions, actual performance
depends on unit and ambient condition.