La description
Basically, FADIsolar two types of solar air conditioner, which one do you prefer to?
1. AC/DC hybrid model, (in the day time, use solar panel, and tiny utility power. while, during the night time, power the air conditioner with your utility power)
this system is an energy-saving model, no need for batteries, solar charge controller…. affordable solutions.
2. 100% pure off-grid model, in the daytime, will power the air conditioner by solar panels, the extra energy will be stored in the batteries, during the night time, will back up with the battery,
the autonomy time will depend on the capacity of the solar panel and batteries.
due to this system need batteries and a solar charge controller, the cost is pretty high when compared with AC/DC HYBRID model, in the meanwhile, after 4 or 6 années, you will need to replace it with brand new batteries, which will be a long-term investment.
The ADVANTAGE is THIS OFF GRID solar air conditioner is:WE CAN DIY the system to an OFF GRID solar energy system for home when we inbuilt POWER INVERTER into the system. while, will bring us the energy of 8 pour 12 kWh per day (based on 12000Btu, with 340W solar panels, 6 pcs.)
Drop your email for more details!
Leading ACDC Hybrid Solar Air Conditioner Supplier Home Application Solar AC Pricelist
OVERVIEW:
This is the 5th generation solar air conditioner we’ve all been waiting for – designed for low cost, easy installation and a fast payback. This unique solar air conditioning technology requires no batteries, no inverter, no controller – just plug in the solar panels and start saving range from 60~90% on daytime cooling or heating costs. During the day it runs primarily on solar power and only uses small amounts of power from the utility company as needed. Hybrid operation eliminates the need for batteries and allows 24 hours per day use of the system. The system primarily uses solar power, and mixes it with normal AC power. solar AC indoor unit For home or office use, this system will cool an area for pennies with 90% or more of the energy coming from sunlight.
In addition to cooling, the AC/DC HYBRID solar heat pump will provide solar powered heating, operating all the way down to an outside ambient temperature of 5F. No matter how far north or south you are, this is the right system for you
There is a power supply auto-balance distribution system inside solar air conditioner. When sunshine is strong, less power supply comes from grid power. When sunshine is weak, more power supply comes from grid power. And when there is no sunshine (in cloudy/rainy days or after sunset), there will be no any electricity generated by solar panels, then hybrid solar air conditioners will be 100% powered by AC grid power.
Leading ACDC Hybrid Solar Air Conditioner Supplier Home Application Solar AC Pricelist
FEATURES
100% DC Inverter = No Wasted Energy
√ 9,000, 12,000 18,000, 24,000 BTU hot selling model.
√ All DC = No Inverter.
√ AC/DC dual power supply
√ Cool or Heat up to 250 ft^2
√ Variable Capacity
√ Anti-Corrosion Technology
√ Eco-Friendly R410a Refrigerant
√ Washable Filters
√ Digital Wireless Remote
Leading ACDC Hybrid Solar Air Conditioner Supplier Home Application Solar AC Pricelist
QUICK DETAILS:
1 Cooling capacity T1 : 940(190-1270)w
2 Heating capacity T1 : 1170(190-1700)w
3 Recommended solar paneles: 3~4 Pcs of 340W in serial connection
4 Noise Level (Indoor Unit):≤45dB(UN)
5 Noise Level (outdoor Unit):≤56dB(UN)
6 Application area : 12~20M2
7. Max. Recommend refrigerant pipe length: 15 meters
AC/DC HYBRID SOLAR AIR CONDITIONER (INVETER TYPE +WIFI FUNCTION) | ||||||
–SIMPLE/SECURE/SMART– | ||||||
Serial No. | Modèle | Unit | FD-35GW-PRO | FD-50GW-PRO | FD-70GW-PRO | |
1 | Climate Type | Tropical ≤ 58 degré. | T3 | T3 | T3 | |
2 | Application area | m2 | 12-20 | 20-30 | 30-42 | |
3 | Source de courant | AC Power | Ph-V-Hz | 1Ph 208V-240V/50-60HZ | 1Ph 208V-240V/50-60HZ | 1Ph 208V-240V/50-60HZ |
4 | DC Power (PV in Series) | V | 80-380V | 80-380V | 80-380V | |
5 | DC Power Current | UN | ≤ 10A | ≤ 10A | ≤ 10A | |
6 | Adviced Solar Panel | Pcs | (3-4)*270~340W in series | (3-6)*270~340W in series | (3-8)*270~340W in series | |
7 | Rated Cooling | Capacité(T1) | W | 3510(900-3900) | 5070(1200-6000) | 6450(1800-7900) |
8 | BTU | 12000(3000-13300) | 17300(4100-20400) | 22000(6100-27000) | ||
9 | Entrée de puissance(T1) | W | 940(190-1270) | 1400(220-2100) | 1790(300-3200) | |
10 | Capacité(T3) | W | 2910 | 4290 | 5130 | |
11 | BTU | 9900 | 14700 | 17500 | ||
12 | Entrée de puissance(T3) | W | 1050 | 1630 | 1940 | |
13 | Rated Heating | Capacité | W | 4100(1000-4500) | 6100(1200-6800) | 7800(1800-9100) |
14 | BTU | 14000(3000-15300) | 20800(4100-23000) | 26600(6100-31000) | ||
15 | Entrée de puissance | W | 1170(190-1700) | 1770(220-2500) | 2290(300-3500) | |
16 | T1 EER (W/W)/ (BTU/W) | / | 3.75/12.75 | 3.60/12.35 | 3.60/12.30 | |
17 | T3 EER (W/W)/ (BTU/W) | / | 2.75/9.45 | 2.65/9.00 | 2.65/9.00 | |
18 | FLIC (W/W)/ (BTU/W) | / | 3.50/11.95 | 3.45/11.75 | 3.40/11.60 | |
19 | Dehumidification capacity | L/h | 1.3 | 1.7 | 2.5 | |
20 | Compressor | Modèle | / | WHP04200 | WHP05600 | 5RD198 |
21 | Taper | / | 2x ROTARY | 2x ROTARY | 2x ROTARY | |
22 | Marque | / | Highly | Highly | Panasonic | |
23 | Indoor fan motor | Modèle | BLDC-15W | BLDC-45W | BLDC-45W | |
24 | Speed(Turbo/Hi/Mi/Lo) | r/min | 1300/1200/1100/950 | 1050/950/850/750 | 1350/1250/1150/1000 | |
25 | Indoor air flow(Turbo/Hi/Mi/Lo) | m3/h | 540/485/435/350 | 980/880/740/620 | 1290/1180/1070/900 | |
26 | Indoor noise level (Turbo) | dB(UN) | “42.5 | “46 | “50 | |
27 | Indoor unit | Dimension(W×H×D) | millimètre | 840×205×295 | 1080×330×237 | 1080×330×237 |
28 | Emballage (W×H×D) | millimètre | 920×290×360 | 1140×300×382 | 1140×300×382 | |
29 | Net weight/Gross weight | Kg | 9.0/12.5 | 15.0/18.5 | 15.0/18.5 | |
30 | Outdoor fan motor | Modèle | / | BLDC-40W | BLDC-55W | BLDC-75W |
31 | Speed | r/min | 880 | 880 | 850 | |
32 | Outdoor air flow | m3/h | 2100 | 2200 | 3300 | |
33 | Outdoor noise level | dB(UN) | “52 | “55 | “58 | |
34 | Outdoor unit | Dimension(W×H×D) | millimètre | 802×564×323 | 802×564×323 | 900×700×337 |
35 | Emballage (W×H×D) | millimètre | 910×622×405 | 910×622×405 | 1006×755×418 | |
36 | Net/Gross weight | Kg | 33.5/37.5 | 37/42.0 | 50/54.5 | |
37 | Refrigerant type | / | R410A | R410A | R410A | |
38 | Max Design pressure | MPa | 4.3/1.5 | 4.3/1.5 | 4.3/1.5 | |
39 | Refrigerant copper pipe | Gas side/Liquid side (inch) | inch | 3/8 1/4 | 1/2 1/4 | 1/2 1/4 |
40 | Max. refrigerant pipe length | m | 15 | 20 | 25 | |
41 | Max. difference in level | m | 8 | 10 | 10 | |
42 | Drain pipe size | millimètre | 16 | 16 | 16 | |
43 | Refrigerant connction copper pipe length | m | 3 | 4 | 4 | |
44 | Connection wire length | m | 4 | 5 | 5 | |
45 | Electronic Expansion Valve | / | Oui | Oui | Oui | |
46 | Loading QTY 40″ Hq/ 20″GP | Ensembles | 200/85 | 160/75 | 115/50 |
1.What is a BTU?
(British Thermal Unit) A unit in which we measure heat.
2.What does a 2-ton hybrid air conditioner mean?
This is also a unit in which we measure the hybrid air conditioners ability to cool. There are 12,000 BTU’s per ton so 2 tons X12,000 BTU = 24,000 BTU capacity.
3.What are the different types of air conditioners?
CENTRAL hybrid Air Conditioners – Central hybrid air conditioning units will cool a large area by using an air distribution
system. The most common application is to add a central air conditioning unit to an existing forced air furnace. The air
conditioner unit (condenser) is placed outside and is connected to the evaporator coil, inside the furnace’s ductwork.
VARIATIONS – Attic installations. In some warmer areas central air units may be installed with their own ductwork. In these cases a blower coil is used to circulate air through the ductwork. The ductwork can be installed in the basement or attic.
SPACE Air Conditioners – Window or room air conditioning units are designed to cool a small room only. Usually these units are placed in a window and are removed after the Air Conditioning season is over. Sometimes window air conditioners can be permanently installed through a wall.
4. What do I do if the refrigerant is leaking out of my air conditioner?
Turn your air conditioner OFF.
Call your service contractor immediately.
Refrigerant leaking is no simple matter. Gone are the days when it was more economical to just add more refrigerant to the unit and ignore the leak. Today it is against the law to knowingly allow an air conditioner to leak, and it is also very expensive.
5. Is it necessary to have my hybrid solar air conditioner maintained regularly?
Absolutely! Annual maintenance on your air conditioner can mean big savings on your Air Conditioning bills. Some studies have shown that proper annual maintenance can save you up to 30% on your energy bills. A well maintained unit will also last longer and break down less, saving you more money in the long run.
When choosing a contractor to perform your tune-up there are some things you should keep in mind.
Can the contractor service your entire system? Having one contractor for your heating and one for your Air Conditioning system leads to confusion.
Make sure you get a written checklist of the work performed.
A comprehensive tune-up should take an hour to perform, anything less and you may not be getting value for your money.
Ensure that your contractor is licensed to work with refrigerants. Most states and provinces now require that technicians take special refrigerant training.
In addition to professionally performed annual maintenance you also play an important part in keeping your system operating efficiently by making sure your furnace air filter is kept very clean. A dirty filter will affect the efficiency of a central air conditioning system much quicker than a furnace. Clean or change the filter regularly!
6.What is the life expectancy of a hybrid air conditioner?
Life expectancy is one of those things that will vary widely from location to location. Obviously an air conditioning units in
warm climates will probably need to be replaced more frequently than units in cooler climates. How close you are located to the ocean will also be a factor.
Generally speaking units in cooler climates tend to last 15 pour 18 années. In warmer climates the range is usually 11 pour 15 années.
Of course you are going to find exceptions to these numbers, but these can be used as a general guideline.