1. WHAT IS DIFFERENCE BETWEEN CASSETTE AND SPLIT.
Cassette units work the same way as wall-hung split system units, with the difference being that cassettes are installed into the ceiling instead of on the wall.
The outdoor unit of a cassette air conditioner is mounted outside, in much the same way as it would be for a conventional wall mounted split system unit.
2. WHAT IS DIFFERENCE BETWEEN FULL SOLAR AC SND HYBRID?
Full solar air conditioning uses full solar power. This can be done through passive solar design, solar thermal energy conversion, and photovoltaic conversion.
Solar-powered ac offers an affordable way to bring net-zero HVAC to homes. As battery storage improves, self-contained solar air conditioners with in-home battery storage will offer the best possible solution: renewable energy from the sun, converted into electricity, with enough surplus to run a cooling unit even in a period of cloudy weather.
Hybrid solar air conditioning system is adapted for converting waste heat energy into useful heat energy. ... The system includes a plurality of heat absorbing units, a heat exchange unit, a coolant, a condenser, an expansion valve, a control unit and an evaporator
3. WHAT IS THE DIFFERENCE BETWEEN INVERTER AC AND SOLAR AC SUCH AS HYBRID?
An inverter type air-conditioner adjusts the speed of the compressor to control the refrigerant (gas) flow rate, thereby consuming less current and power.
An inverter has precise temperature control and as the set temperature is attained, the unit adjusts its capacity to eliminate any temperature fluctuations. Solar ac takes advantage of the abundant energy provided by the sun.
Using both inverter technology (VRF) and DC technology, solar air condition can be directly powered by solar panels. It is very flexible in terms of configuration; it can configure to use as:
- Hybrid solar air conditioner system,
- Off grid solar air conditioner system,
- Pure solar air conditioner system
- PV-Wind hybrid solar air conditioner, and many more.
4. HOW MUCH IS THE INSTALLATION.
Give us a call or send us a mail at info@solaracghnana.com.
5. HOW CAN I GET THE COST OF THE ACs?
Visit our site for more information at info@solaracghnana.com.
6. HOW DO I ORDER?
To place an order, send us a request at info@solaracghnana.com.
7. WHEN WILL IT BE DELIVERED?
Delivery takes 48-72hours.
8. WHEN WILL IT BE INSTALLED?
A team of experts will come around for the installation after the client is given an invoice which will take 2-3 days.
9. HOW DO I KNOW THE SIZE OF AC I WILL NEED?
To choose what size air conditioner is right for you, you need to first calculate the size of the home spaces served by the air conditioner, in square feet.
10. COULD THERE BE ADDITIONAL CHARGES?
Yes, if the client needs extra services.
11. CAN I HAVE A SOLAR AC SYSTEM ALSO OR RATHER THAT CAN COVER OTHER ITEMS SUCH AS FRIDGES, MY LIGHTS AND MAY BE A SOCKET FOR CHARGING PHONES?
Yes, there are many appliances that can be powered by solar energy such as the above mentioned and even more.
12. HOW MUCH DOES THE FEASIBILITY STUDY OF MY PROJECT COST?
The cost of a feasibility study can vary greatly depending on the depth and breadth of the study. A high quality, in-depth study can cost much, although the cost is usually significantly less.
13. WHAT PAYMENT METHODS DO YOU HAVE AVAILABLE?
- Cash.
- Checks.
- Debit cards.
- Credit cards.
- Mobile payments.
- Electronic bank transfers
14. HOW DO I PAY?
A customer can pay in
- cash,
- with checks.
- Debit cards.
- Credit cards.
- Mobile payments.
- Electronic bank transfers etc.
15. WHY HAVE SOLAR POWERED AIR CONDITIONERS TAKEN SO LONG TO COME TO MARKET?
A couple of obstacles slowed their adoption. First, because solar power is inconsistent, it did not work well with single-speed compressors (part of heat pump cooling systems). Newer compressors operate with nimble, variable speed fans, much more conducive to direct power by solar panels.
16. HOW IS HYBRID SOLAR AIR CONDITIONER DIFFERENT FROM STANDARD HEAT PUMP?
A hybrid solar ac unit has the ability to operate in two modes, as a direct DC system when the sun is shining, and as a hybrid DC unit by means of an inverter whenever the sun is not shining. If the PV panels are dedicated to cooling only, the PV array does not need to be connected to the local utility’s grid power.
17. HOW MANY SOLAR PANELS DO I NEED TO RUN AN AIR CONDITIONER?
With an efficient cooling system for a small home or studio apartment, you could get by with about three panels rated for 320 watts each. Window air conditioners are generally about one-third as efficient as heat pump air conditioners, so think twice before trying to power one with solar. They use 500-1,400 watts each. For the same 500 watts of power, a heat pump produces three times as many cooling buts. Standalone heat pumps with high SEER ratings, in the 18 to 27.5 range can be operated with under 1,000 watts and cool 750 sq. ft. or so.
18. Can SOLAR AC BE COMPLETELY DRIVEN BY SOLAR ENERGY?
Yes, as long as the sunlight is intense enough to produce the solar energy that is required for operation of the air conditioner. As SOLAR Ac’s inverter air conditioner consumes little electrical power when operating at ultra-low frequency, the 1000 watts array of solar PV panels is sufficient to meet the demand for electric power.
19. CAN I PURCHASE THE AC UNIT ONLY AND USE MY OWN SOLAR PV?
Yes, provided the Solar PV panels your intent to use meets the following requirements namely:
- I) It can provide a steady DC Voltage of between 90 and 120 VDC and must NOT exceed 165 VDC because it will damage the power supply module.
- ii) It must be able to supply DC current NOT exceeding 11 amperes DC because it will damage the power supply.
20. IS IT A MUST TO CONNECT COMMERCIAL POWER TO THE SOLAR AIR CONDITIONER UNIT?
Yes. Since energy transformation efficiency and solar power generating capacity are directly related to the intensity of light, the solar PV panels power generating capacity decreases in reduced light intensity and or cloudy weather conditions and will be completely absent in the dark of night fall. In the absence of an auxiliary power source, the unit may not operate normally and or it may stop completely.
