The solar power system co nsists of photovoltaic modules (including brackets), photovoltaic combiners, solar controllers, and batteries (including battery cabinets). If the load is AC equipment (220V or 110V), you need to configure the inverter. The functions of each part are as follows:
(1) Photovoltaic modules: Photovoltaic modules are an important part of solar power generation systems and a high value part of solar power generation systems. Its role is to convert the radiant energy of the sun into electrical energy, or send it to a battery for storage, or to drive the load.
(2) Photovoltaic combiner box: The photovoltaic combiner box is used to reduce the connection between the PV module and the inverter/controller and is convenient for maintenance. It has perfect functions such as anti-counter-attack, over-current protection and lightning protection to improve the product. Safety and reliability.
(3) Solar controller: The solar controller provides the functions of the photovoltaic module to charge and discharge the battery, such as overcharge, overdischarge protection, temperature compensation, etc. Other additional functions such as light control switches and time control switches should be optional for the controller
(4) Inverter: The electricity generated by the PV module is DC, and it cannot supply power to the AC load. The inverter needs to convert DC power into AC power and provide it to the load.
(5) Battery: Generally, lead-acid batteries and colloidal batteries are used. In small and micro systems, nickel-hydrogen batteries, nickel-cadmium batteries or lithium batteries can also be used. Its function is to store the energy generated by the solar panel when there is light, and then release it when needed.
Home solar system |
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Target facilities |
Personal residence |
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Application |
Refrigerator, energy-saving lighting, TV, fan, street light |
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Advantage: |
The system structure is simple; Very suitable for scattered rural areas; Use more accurately because the user is a separate household. |
Design home solar system example analysis
Solar power system load usage status (all load input voltage is 220VAC, 50Hz) |
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Appliance name |
Load power |
Quantity |
Daily working hours |
Daily power consumption |
refrigerator |
100w |
1 |
12 hours |
1200Wh |
Energy saving lighting |
25W |
5 |
5 hours |
625Wh |
Fan |
55w |
3 |
8 hours |
1320Wh |
TV |
100W |
1 |
4 hours |
400Wh |
Total electricity usage per day |
3545Wh |
Solar power system configuration calculation
1. Inverter rated power = load rated power * safety factor
(100W*5+25W*5+55W*3+100W)*1.2-1.3=890W*1.2=1112W
Description: The refrigerator selects the inverter more than 5 times its rated power. For example, the above 100W refrigerator needs to be equipped with an inverter of more than 500W);
2. Daily power consumption of load = sum of daily power consumption of each load = 3545Wh
3.Inverter daily power consumption = load daily power consumption / inverter efficiency (0.85-0.92)
3545Wh/0.85=4170Wh
(Daily power generation of PV modules>=Inverter daily power consumption can ensure stable operation of the system)
PV module power = daily power generation of PV modules / average sunshine peak time * loss factor 4170Wh / 5.5h * 1.3 ≈ 1000Wp (average sunshine peak time takes 5.5 hours);
5. Battery pack capacity = inverter daily power consumption / system rated DC voltage / discharge depth 4170Wh / 24VDC / 0.7-0.8 = 217Ah
Solar power system configuration selection: (selected according to the company's product specifications)
1. Inverter: 1000W/24VDC/220VAC/50HZ
2. Solar modules: 250Wp/36V*4 (four parallel inputs)
3. Photovoltaic combiner box: 4 in 1 out
4. Solar Charge Controller: 24VDC/50A (1000Wp/24V≈42A)
5. Battery pack: 12V/250Ah*2 (two series input)
6. Battery cabinet: C2 (250AH/12*2)
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Nowadays solar energy system is a trend of development. It can use existing resources without polluting the environment. And it is also a long-term investment.