Hybrid Solar Powered Air Conditioning: Save Money and the Planet
YDSL brand hybrid AC/DC solar powered air conditioning for homes or business, overviews:
- 100% of energy saved during the day. Just solar power is used.
- 9000 BTU, 12000 BTU, 18000 BTU, and the highest choice of 36000 BTU
- Power supply options include AC/DC auto balance, DC power mode, and AC+DC mix power supply.
- No solar controller, battery, or inverter, or you would like the off-grid solar AC system
- Applying a smartphone for smart control APP
- Cooling & heating two system
- DC inverter compressor motor
- Broad operating temperature range (-20 to 60 °C)
- A/C unit with a three-year guarantee and solar panels with a 25-year warranty
Technical Specifications
hybrid 9000 BTU
| Model | Unit | BY(R)-26GWACDCB1 | |
| Power Supply | PH-V-HZ | 1Ph,220~, 50/60Hz | |
| V | DC 50-380V | ||
| Cooling | Capacity | Blu/h | 9000 (500-11000) |
| Powe Input | W | 590 (100-1200) | |
| Current | A | 2.68(0.45-5.45) | |
| Heating | Capacity | Blu/h | 9500 (3800-11500) |
| Powe Input | W | 625 (120-1200) | |
| Current | A | 2.84(0.5-5.45) | |
| Moisture Removal | L/h | 1.0 | |
| Max input | W | 1320 | |
| Max current | A | 6 | |
| Indoor Air Flow(H/M/L) | m3/h | 570/470/370 | |
| Indoor Noise(H/M/L) | dB(A) | 41/36/28 | |
| Indoor Unit | Net Size (W*D*H) | mm | 734*194*285 |
| Pack Size (W*D*H) | mm | 780*270*360 | |
| Net/Gross | Kg | 8.1/9.9 | |
| Outdoor Air Flow | m3/h | 2100 | |
| Outdoor Noise | dB(A) | <50 | |
| Outdoor Unit | Net Size (W*D*H) | mm | 835*320*540 |
| Pack Size (W*D*H) | mm | 900*400*600 | |
| Net/Gross | Kg | 28.9/33.4 | |
| Operation Temp | ℃ | 16 – 30 | |
| Ambient Temp (cooling&heating) | ℃ | 18-52/-15 -34 | |
| Application area | ㎡ | 12-18 | |
hybrid 12000 BTU
| Model | Unit | BY(R)-35GWACDCB1 | |
| Power Supply | PH-V-HZ | 1Ph,220~, 50/60Hz | |
| V | DC 50-380V | ||
| Cooling | Capacity | Blu/h | 12000 (7000-14000) |
| Powe Input | W | 865 (110-1500) | |
| Current | A | 3.93(0.5-6.82) | |
| Heating | Capacity | Blu/h | 13000 (4000-15000) |
| Powe Input | W | 880 (130-1510) | |
| Current | A | 4(0.59-6.86) | |
| Moisture Removal | L/h | 1.3 | |
| Max input | W | 1500 | |
| Max current | A | 7.5 | |
| Indoor Air Flow(H/M/L) | m3/h | 570/470/370 | |
| Indoor Noise(H/M/L) | dB(A) | 41/36/28 | |
| Indoor Unit | Net Size (W*D*H) | mm | 775*194*285 |
| Pack Size (W*D*H) | mm | 830*270*360 | |
| Net/Gross | Kg | 8.1/9.9 | |
| Outdoor Air Flow | m3/h | 2100 | |
| Outdoor Noise | dB(A) | <50 | |
| Outdoor Unit | Net Size (W*D*H) | mm | 835*320*540 |
| Pack Size (W*D*H) | mm | 900*400*600 | |
| Net/Gross | Kg | 29/33.5 | |
| Operation Temp | ℃ | 16 – 30 | |
| Ambient Temp (cooling&heating) | ℃ | 18-52/-15 -34 | |
| Application area | ㎡ | 16-23 | |
hybrid 18000 BTU
| Model | Unit | BY(R)-50GWACDCB1 | |
| Power Supply | PH-V-HZ | 1Ph,220~, 50/60Hz | |
| V | DC 50-380V | ||
| Cooling | Capacity | Blu/h | 18000 (6200-19500) |
| Powe Input | W | 1320 (140-1800) | |
| Current | A | 6(0.6-8.18) | |
| Heating | Capacity | Blu/h | 19000 (4700-20000) |
| Powe Input | W | 1465 (200-1900) | |
| Current | A | 6.66(0.9-8.63) | |
| Moisture Removal | L/h | 1.7 | |
| Max input | W | 2300 | |
| Max current | A | 10.45 | |
| Indoor Air Flow(H/M/L) | m3/h | 721/566/458 | |
| Indoor Noise(H/M/L) | dB(A) | 43/37/32 | |
| Indoor Unit | Net Size (W*D*H) | mm | 921*213*302 |
| Pack Size (W*D*H) | mm | 995*305*380 | |
| Net/Gross | Kg | 9.5/12.5 | |
| Outdoor Air Flow | m3/h | 2100 | |
| Outdoor Noise | dB(A) | <52 | |
| Outdoor Unit | Net Size (W*D*H) | mm | 835*320*540 |
| Pack Size (W*D*H) | mm | 900*400*600 | |
| Net/Gross | Kg | 31/36 | |
| Operation Temp | ℃ | 16 – 30 | |
| Ambient Temp (cooling&heating) | ℃ | 18-52/-15 -34 | |
| Application area | ㎡ | 24-35 | |
hybrid 24000 BTU
| Model | Unit | BY(R)-50GWACDCB1 | |
| Power Supply | PH-V-HZ | 1Ph,220~, 50/60Hz | |
| V | DC 50-380V | ||
| Cooling | Capacity | Blu/h | 24000 (5100-26900) |
| Powe Input | W | 1980 (240-3030) | |
| Current | A | 9(1.0-13.2) | |
| Heating | Capacity | Blu/h | 25000 (5500-30000) |
| Powe Input | W | 2050 (260-3140) | |
| Current | A | 9.32(1.1-13.7) | |
| Moisture Removal | L/h | 2.5 | |
| Max input | W | 3200 | |
| Max current | A | 14.54 | |
| Indoor Air Flow(H/M/L) | m3/h | 970/780/590 | |
| Indoor Noise(H/M/L) | dB(A) | 45/39/34 | |
| Indoor Unit | Net Size (W*D*H) | mm | 1026*220*327 |
| Pack Size (W*D*H) | mm | 1105*310*405 | |
| Net/Gross | Kg | 11.9/15.2 | |
| Outdoor Air Flow | m3/h | 2900 | |
| Outdoor Noise | dB(A) | ≤56 | |
| Outdoor Unit | Net Size (W*D*H) | mm | 910*340*700 |
| Pack Size (W*D*H) | mm | 1063*457*780 | |
| Net/Gross | Kg | 49.5/56 | |
| Operation Temp | ℃ | 16 – 30 | |
| Ambient Temp (cooling&heating) | ℃ | 18-52/-15 -34 | |
| Application area | ㎡ | 32-47 | |
hybrid 36000 BTU
| Model | Unit | BY(R)-50GWACDCB1 | |
| Power Supply | PH-V-HZ | 1Ph,220~, 50/60Hz | |
| V | DC 50-380V | ||
| Cooling | Capacity | Blu/h | 36000 (6500-37500) |
| Powe Input | W | 2850 (320-3510) | |
| Current | A | 12.95(1.45-15.95) | |
| Heating | Capacity | Blu/h | 37500 (7000-39000) |
| Powe Input | W | 3000 (350-3650) | |
| Current | A | 13.63(1.59-16.59) | |
| Moisture Removal | L/h | 3.6 | |
| Max input | W | 3800 | |
| Max current | A | 14.54 | |
| Indoor Air Flow(H/M/L) | m3/h | 1150/900/700 | |
| Indoor Noise(H/M/L) | dB(A) | 46/40/35 | |
| Indoor Unit | Net Size (W*D*H) | mm | 1080*220*327 |
| Pack Size (W*D*H) | mm | 1155*310*405 | |
| Net/Gross | Kg | 13.7/17.2 | |
| Outdoor Air Flow | m3/h | 3800 | |
| Outdoor Noise | dB(A) | ≤64 | |
| Outdoor Unit | Net Size (W*D*H) | mm | 946*410*810 |
| Pack Size (W*D*H) | mm | 1090*500*860 | |
| Net/Gross | Kg | 65/73 | |
| Operation Temp | ℃ | 16 – 30 | |
| Ambient Temp (cooling&heating) | ℃ | 18-52/-15 -34 | |
| Application area | ㎡ | 47-63 | |
What is Hybrid Solar Powered Air Conditioning?
With hybrid solar air conditioners, the newest and most affordable technology uses solar energy to power air conditioners, making them an eco-friendly and affordable way to cool down or heating indoor areas. Traditional air conditioners only use energy from the grid. Hybrid solar power and air conditioning, on the other hand, use the sun’s power to power the cooling system by turning it into electricity.
Usually, solar hybrid air conditioner systems are made up of a few main parts:
PV panels: These panels take in sunlight and turn it into direct current (DC) energy. The general performance of the solar-powered air conditioning system is directly related to how well these panels work.
Hybrid Systems: Hybrid air conditioner solar is made to work as a hybrid system, which means it can get power from both the grid and solar panels. This makes sure that it keeps working even when there isn’t enough sunlight, like at night or when it’s dark.
Solar AC/DC hybrid air conditioner systems use these parts to make them a sustainable option to regular air conditioners, which lowers energy use and utility bills. They work especially well in places with high solar insolation, which means that there is a lot of sunlight that can be used effectively.
How Does Hybrid Air Conditioner Solar Power Work?
A hybrid solar powered air conditioning system uses both solar energy and electricity from the power grid to cool your home effectively and dependably. In simple terms, this is how it works:
1. Making power from the sun
Solar panels take in light from the sun and turn it into direct current (DC) energy. In order to get the most energy, these panels are usually put on roofs or other sunny spots.
2. Change of Power
AC electricity is made from DC electricity that comes from the solar cells. This electricity is sent to an inverter, which changes it. This kind of electricity is what the air conditioner needs to work.
3. Energy Storage (Not Required)
Some hybrid systems store extra solar energy in batteries so that it can be used at night or when it’s dark. This makes sure that the cooling keeps going even when there is no sunlight.
4. Connect to the grid
When there isn’t enough solar energy, like at night or when there is a lot of demand, the system instantly switches to electricity from the grid. This smooth shift makes sure that the cooling stays steady without any breaks.
5. Smart management of energy
A smart scheduler that makes the best use of energy is often built into hybrid systems. It uses solar power first when it’s available and the grid only when it has to, which saves the most energy.
Benefits of Solar Energy Air Conditioner
Long-term investment
Investing for the long term Installing a solar powered air conditioning system may cost more up front than a regular one, but the money you save on your energy bills over time makes it a good buy. In many places, you can get rebates, tax credits, or other rewards for installing solar energy systems, which adds to the financial benefits.
Environmentally Friendly
There is less of the environmental impact left behind by solar powered air conditionering for home because they use fewer fossil fuels. These devices help clean up the environment by using the sun to make clean energy. This makes the future more sustainable. The beneficial idea for the world gets more important as more people learn about climate change and the need for green energy.
Much less use of electricity
Solar-powered air conditioning for home with hybrid to cool the air uses less electricity from other sources because they get their power from the sun. Because they turn sunlight into usable electricity, these systems can cut down on the amount of power from the grid that is needed to run the air conditioner. People tend to use a lot of energy in the summer, so this is very helpful.
Cutting the peak usage
On hot summer days, there is usually a lot of demand for electricity, which makes prices go up and puts stress on the power grid. Solar-powered air conditioning helps solve this problem by making electricity during the hottest parts of the day, when people also need the most cooling. Not only does this help the individual user, it also helps keep the whole electricity grid stable.
Smart APP Control
Easy to Use Control from Anywhere
Changing the temperature: Users can change the temperature of their solar air conditioner from anywhere with an internet link and the TUYA app. You can make sure your home stays at the right temperature even when you’re not there, like when you’re at work, on vacation, or just in another room.
Mode Switching: Users can change between different cooling modes with this app. This makes sure that the air conditioner works for you no matter the season or weather.
Voice Control
Applications of Hybrid Solar Air Conditioning
Residential Applications
Scenario: A family living in a suburban area installs a hybrid solar powered air conditioning system to reduce their energy bills and carbon footprint. If you are in a remote suburb without AC, you can also refer to our off-grid solar air conditioner
Advantages:
- Energy Savings: During sunny days, the system primarily uses solar energy, significantly reducing electricity costs.
- Environmental Impact: The household’s impact on the environment can be smaller if it uses fewer fossil fuels.
- Reliability: The hybrid system ensures that the air conditioning unit operates efficiently even on cloudy days or at night by switching to the traditional power grid.
Office Buildings
Advantages:
- Operational Cost Savings: Significant reduction in energy bills due to the utilization of solar power during peak daylight hours.
- Sustainability: Enhances the company’s green credentials by using renewable energy sources.
- Employee Comfort: Ensures consistent air conditioning performance, improving the work environment.
Shopping Malls
Scenario: A shopping mall installs a hybrid solar air conditioning system to manage the cooling demands of large indoor spaces.
Advantages:
- Cost Management: Decreases the mall’s overall electricity consumption, translating into lower operating costs.
- Customer Experience: Maintains a comfortable shopping environment, encouraging longer visits and higher sales.
- Brand Image: Positions the mall as an environmentally responsible business, attracting eco-conscious consumers.
Installation and Maintenance
Professional Installation
- Solar energy solution evaluation: YDSL’s engineers will assess your house or office’s daily power usage and solar energy demands before installation. It includes placing solar panels on roofs or other sunny regions.
- Equipment selection: After examination, YDSL specialists will propose solar panels, inverters, and other components for your air conditioning system with PV panels.
- Designing Systems: Design the solar panel configuration, wiring, and connection with existing electrical infrastructure. This plan fits your cooling demands and assures system efficiency.
- Installation Process: Remotely instruct the customer’s local expert installers to install the solar panel, link it to the inverter, and integrate the system with the air conditioner. They will safeguard all connections and follow local laws.
- System Testing: To guarantee proper operation, instruct local installation professionals to properly test the system after installation. Solar panel output, inverter performance, and air conditioning cooling efficiency are checked.
Regualr maintenance
Solar Power Air Conditioning System Maintenance Tips:
- Regular Solar Panel Cleaning: Regular cleaning ensures maximum sunlight absorption.
- System Inspections: Professional inspections identify potential issues before they become major problems.
- Performance Monitoring: YDSL solar A/C systems come with tools that let you keep an eye on how well your solar power air conditioning system is working. Monitoring helps you make sure the system is working at its best and can let you know if anything is wrong.
- Component Replacement: Regular monitoring of inverters or batteries ensures long-term efficiency and reliability.
FAQS
1. What are the disadvantages of solar A/C?
High equipment and installation expenses up front, dependency on weather for best results, and possible solar panel deterioration over time are the primary disadvantages. Should battery packs and inverters be included, the price will go up. The market accepts solar panels less readily than conventional AC units.
2. What are the benefits of hybrid solar powered air conditioning??
People can cut their energy costs by 50–80% by using solar DC mode during the day. When it gets dark at night, the hybrid air conditioner stops getting sunlight and instantly changes to AC mode to take advantage of the low peak electricity price at night. This is a very cheap way to cool down in the summer.
3. Do hybrid system with solar panels need an inverter?
Because it has clever power management technology, this system can use the DC power from the solar panels without an inverter.
4. How many solar panels to run solar powered air conditioner?
9000BTU 400W Solar Panel
12000BTU 400W Solar Panel
18000BTU 400W Solar Panel
24000BTU 400W Solar Panel
30000BTU 500W Solar Panel
36000BTU 500W Solar Panel
5. What's the warranty period for solar air conditioner window unit?
The YDSL solar panel air conditioner comes with a three-year warranty. For more information, please contact us.
6. What are the contents of the warranty?
As long as the product is within the quality assurance period, we will provide free accessories and online technical guidance. As batteries are dangerous goods and cannot be shipped separately, we can provide customers with replacement parts for free.
7. Who will pay for the shipping cost of accessories during the warranty period?
If customers continue to purchase our products from our factory, we will send free spare parts, but they must be within the warranty period. If the customer does not need to purchase additional products and only needs accessories, we provide free accessories, and the customer bears the shipping cost (except for batteries, express delivery cannot be sent).
8. What is the difference between solar AC and regular AC?
The only thing that makes them different is the source of energy and the change. Depending on the weather where you live, a solar powered air conditioning can cut the amount of energy needed to run an AC by as much as 50%. The whole thing can be set to limit the amount of AC power that comes in, which cuts the cost of running AC.
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