Autonomous photovoltaic system for refrigerator 12V / 65watt - 75 watts
Autonomous photovoltaic kit / package for small refrigerator 65-75 watt / 12V or 220V by adding inverter
5.5KWH autonomous photovoltaic system efficiency | Summer: 5.5 kWh / day-Winter: 1,9 kWh / day |
Storage - Battery autonomy (DOD 50%) | 1,5 days (with full battery charge) |
Suggested system use | Summer: 24/24-Winter: Weekends |
Autonomous Photovoltaic package up to 5.5kwh The autonomous photovoltaic system generates energy for the following electrical appliances and loads:
RefrigeratorFreezer A ++ energy class (300 kWh per year, motor / compressor power 150Watt)
Led lamps up to 10 watts up to 6 hours / 24 hours
LED TV up to 42 ″ (power 100Watt) for use 6 hours / 24 hours
Drill or Small Wheel or A 1 hp (750W) water pump for about 20 minutes
Fan (maximum 40 Watt) for 6 hours / 24 hours
Portable Computer 85 Watt) up to 4 hours
Washing machine 1500 watts once a week for 1 hour
Modem / Router / WiFi / mobile chargers up to 2.5 hours / 24 hours
Autonomous Photovoltaic package up to 5.5kwh The autonomous photovoltaic for (refrigerator, washing machine, lighting, TV, Computer, Mobile Fan Charger, Power Tools 5.5kwh generates energy in summer on a daily basis and consists of:
Two photovoltaic panels / panels Eco 460 Watt Half cell Positive tolerance + 3%. Material warranty 15 years. Performance guarantee up to 80% of power: 30 years
12 deep discharge batteries , open type 2v Ecopvsm 400AH C 120 2V batteries (2600 charge cycles DOD 50%) 2 years warranty. open type with deep discharge maintenance 2V elements of European certifications CE, TUV, ISO 2000-2001 They have 2600 cycles dod 50% with a life expectancy of 12-14 years
A 3000 Watt clean sine inverter charger / boot pick (6000Watt). Warranty: 2 years. Supply of materials and service 5 years.
1 pcs. reverse clean sine wave Eco ICP/M- 3000VA 24V 30AC 50M 75V with built-in charger batteries 3000VA boot pick (6000Watt). Possibility of using a generator or connection to the PPC network. Professional inverter Quadruple function.
It has a 50A charge regulator MPPT 75V 30A / 24 automatic battery charger, Also works as a UPS, digital display charging regulator. European guarantee. German specifications. Made in Taiwan / Malaysia. NEW SERIES. Warranty: 2 years. Supply of materials and service 5 years.
A charge regulator 100V / 40A MPPT technology (up to + 30% higher efficiency), with digital display - data logger. Warranty: 2 years
Photovoltaic support bases + accessories - clamps
Full installation support
In autonomous photovoltaic systems for refrigerator , special attention should be paid to the devices used and loads. Improper loads are very often the source of malfunction or damage to the PV system.
6 STEPS to create OFF-GRID / autonomous photovoltaic system
Are you interested in designing an off-grid solar system? Here are the 6 steps to get started.
#1) Calculate how much energy you need
This is the most important step, and many people try to skip it. Do not do it!
Planning a solar system without knowing how much energy you need is like planning a trip by car and not knowing how far you are going and with which vehicle. Okay, go buy some gas for the trip. How much? Well, that depends on your gas distance and miles. The same with the solar. You can not just say that I will go with 2 solar panels and a battery and I hope that will be enough for my needs. Use our cargo calculator and enter what you will supply with your solar system. You need to remember exactly what will be powered by your system - seemingly small changes can make a big difference.
#2 Calculate the amount of batteries you need
Now that you know how much power you need, you need to calculate how many batteries you need to store it.
Do you just need enough storage for a day or two or do you need enough batteries to store 3 or 4 days or more, power?
Do you have another energy source, such as a generator or turbine, that will come in if the sun is not shining?
Will you store the batteries in a warm room or in a cold place?
Batteries are rated for storage at approximately 80 degrees Fahrenheit. The colder the room, the larger the battery pack you need - over 50% more for below zero. Each of these answers affects the size and cost of your battery bank.
More information here