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Typically, the output is 300 watts, but this may vary, so make sure to double-check! If the area occupied is smaller than your roof area, the system should fit just right!.
Also Check: – Hand Drying Footprint Calculator Calculating solar panel wattage involves a series of methodical steps: Determine the panel specifications: Locate the Vmp and Imp values, which are typically provided on the panel's datasheet. Apply the formula: Multiply Vmp by Imp to derive the maximum power output in watts.
But even today there is no definite answer for how large solar panels are, because the answer varies. The same goes for their wattages because not each system works on the same power. We know you have lots of queries regarding solar panel sizes and wattage, so let us discover their answers.
The size in watts corresponds to their physical dimensions and power output. For example, 60-cell solar panels measure 99 x 167.6 cm and produce 270 to 300 watts, while 72-cell solar panels have an average output ranging between 350 and 400 watts due to the extra row of cells.
To calculate the required system size, multiply the number of panels by the output. For example, a 6.6 kW solar system typically consists of 20 panels each delivering 330W of power. Solar Panel Wattage Divide the average daily wattage usage by the average sunlight hours to measure solar panel wattage.
A typical 400-watt solar panel is 79.1 inches long and 39.1 inches wide. It takes up 21.53 sq ft of area. If you have a 1000 sq ft roof, and you can use 75% of that roof area for solar panels, you can theoretically put 34 400-watt solar panels on a 1000 sq ft roof.
Usually, it is 1.2 to 1.5 which is multiplied by the desired output. For example with a 20% buffer, the required solar panel output with Buffer (Watts) = 6 kW×1.20 = 7.2 kW Nevertheless, when you are choosing solar panels make sure their power ratings equal or surpass the required output to meet your energy needs and preferences.
Oushang Solaris one of the top photovoltaic module manufacturers in China and has been engaged in the development, production and sales of solar module products for many years. We use strict production technology and quality control system to ensure the perfect quality of manufactured products. Quality inspection. We are a custom Solar Panel Manufacturerwith our manufacturing facility in Shenzhen, China. Start using your own designed solar. (1)Household rooftop PV (2)Commercial building rooftop photovoltaic (3)Solar power station (4)Solar energy storage system (5)Power supply in the field without electricity, such as. Question: Is your company manufacturer or trade company? Answer: Manufacturer. Question: Is sample order available? Answer: Yes. Question: Is.
The International Electrotechnical Commission (IEC)certifications are widely recognized quality standard certifications throughout the solar industry. Following an overview about the major IEC PV module certifications: The IEC61215 covers the parameters which are responsible for the ageingof PV modules. This includes all forces of nature: 1. Sunlight incl. UV. 2. The IEC 61646 certification is for Thin-Film PV modules and is in many aspects identical to the international standard IEC 61215 for crystalline modules. An additional test takes the degradation behavior ofamorphous. IEC 60364-4-41 is about protection against electric shock for low-voltage electrical installations; it describes personnel safety. Photovoltaic (PV) module safety qualification, which was later issued as the European standard EN 61730 (almost similar). The IEC / EN 61730 consists of 2 parts: the first part covers all the requirements for.
[PDF Version]This comprehensive guide demystifies the key aspects of solar panel certifications, testing standards, and the qualifications required for installers. It serves as an essential resource for anyone looking to delve into the solar industry, whether as a consumer, installer, or enthusiast.
Beyond MCS certification, several other accreditations are important for solar panel installers in the UK. Here are key certifications you should be aware of: Flexi-Orb: This is a new certification scheme recognised by the United Kingdom Accreditation Service (UKAS).
Certifications are more than just badges; they are a testament to the quality and reliability of solar panels. These certifications ensure that the products conform to international standards set by authoritative bodies.
Green certifications are awarded to solar panels that have a reduced environmental impact throughout their lifecycle, from manufacturing to disposal. These certifications consider factors like energy use in production, the use of hazardous materials, and the recyclability of components.
The ISO 9001 certification is not specific to solar panels but is a crucial indicator of a manufacturer's commitment to maintaining high standards in their production processes. This certification relates to quality management systems and is about ensuring consistent product quality.
In the realm of solar panels, safety certifications are indispensable. These certifications signify that a product has been tested for safety risks, including electrical and fire safety, and has been found compliant.
Charging lithium batteries effectively requires essential components like solar panels, charge controllers, batteries, and inverters. When it comes to solar power, the efficiency of the charging process hinges on the quality of these components. Lithium batteries, being sensitive to voltage fluctuations, necessitate the use of. When picking solar panels for charging lithium batteries, it's essential to take into account panel efficiency factors, size, and wattage. These elements play a significant role in determining how effectively your batteries will charge. Discussing the efficient methods for charging lithium batteries is essential for maximizing their performance and longevity when using solar power. To guarantee ideal charging,. Ensuring the safe and efficient charging of lithium batteries with solar power requires the use of charge controllers. These devices play a vital role in regulating the current flow from solar panels to lithium batteries, preventing.
[PDF Version]Solar panels can charge lithium batteries, but an MPPT solar charge controller is required. More current goes into the battery when an MPPT controller is used, which leads to faster battery charging. This is a step by step guide to charging lithium batteries with solar panels. This is a simplified, general approach.
To charge lithium batteries with solar energy, you'll need solar panels, charge controllers, compatible lithium batteries, an inverter, and the necessary wiring and connectors to set up the system properly. What are the benefits of using solar power to charge lithium batteries?
Monocrystalline Panels: Known for their higher efficiency and space-saving design, they are ideal for charging lithium batteries efficiently. Properly matching the size and wattage of the solar panel to the battery capacity is essential for efficiently charging lithium batteries with solar power.
Lithium-ion batteries have a battery management system (BMS) to prevent overcharging. You should, however, always have a solar charge controller in your solar setup kit. Your lithium-ion battery will be kept safe if you invest in a good quality solar controller. This will make the charging process more efficient.
Utilize advanced technology and efficient charging methods for battery longevity. Charging lithium batteries effectively requires essential components like solar panels, charge controllers, batteries, and inverters. When it comes to solar power, the efficiency of the charging process hinges on the quality of these components.
The battery stores the electrical energy for later use, such as powering electronic devices or providing backup power. Solar panels operate based on the photovoltaic effect, where photons from sunlight knock electrons loose from atoms within the solar cells, creating electricity. Part 2. Types of lithium batteries for solar charging
There are two types of inverters used in PV systems: microinverters and string inverters. Both feature MC4 connectors to improve compatibility. In this section, we will explain each of them and their details. Planning the solar array configuration will help you ensure the right voltage/current output for your PV system. In this section, we explain what these items are and their importance. Now, it is important to learn some tips to wire solar panels like a professional, below we provide a list of important considerations. Up to this point, you learned about the key concepts and planning aspects to consider before wiring solar panels. Now, in this section, we provide you with a step-by-step guide on how to wire.
Solar panel wiring connects photovoltaic (PV) modules to each other and the system's components, such as the inverter and battery storage. This wiring is essential for conducting electricity generated by solar panels to your home or business. Connection: It creates electrical pathways between panels and other components.
Wiring solar panels together can be done with pre-installed wires at the modules, but extending the wiring to the inverter or service panel requires selecting the right wire. For rooftop PV installations, you can use the PV wire, known in Europe as TUV PV Wire or EN 50618 solar cable standard.
The inverter is connected to the home's electrical panel, allowing the solar power to be distributed throughout the house. Safety devices like circuit breakers and fuses are also installed to protect the system. What is the best wire for solar panels? The best wire for solar panels is typically a solar-rated PV wire or a USE-2 wire.
Before we dive into the wiring process, let's familiarise ourselves with the key components of a solar system: Solar panels: These panels convert sunlight into electricity. Inverter: This device converts DC (direct current) electricity from the panels into AC (alternating current) electricity that can be used in your home.
Wiring solar panels in series requires connecting the positive terminal of a module to the negative of the next one, increasing the voltage. To do this, follow the next steps: Connect the female MC4 plug (negative) to the male MC4 plug (positive). Repeat steps 1 and 2 for the rest of the string.
12V is the most common solar panel wiring connection with batteries, as most appliances are designed to operate on 12V. With a 12V system, parallel orientation is usually preferred for both panels and batteries. This is because increasing the amps allows for devices to be powered for much longer than they could be when wired in series.
A solar charge controller is an essential element in any solar-powered system, whether it be a home or an RV. This gadget regulates the power flow between the solar panel and the battery, ensuring that the battery remains at a consistent state of charge. Since solar panels produce different amounts of electricity. The solar charge controller works by measuring the voltage of the batteries and the solar panels and adjusting the flow of electricity accordingly. When the batteries are fully charged, the controller will reduce the amount of electricity. Generally, there are two main types of solar charge controllers: Pulse Width Modulation (PWM) controllers and Maximum PowerPoint. Apart from the above-mentioned information, there are a few other important things you need to know about solar charge controllers if you're planning to use one. Solar charge controllers are available in different sizes suitable for solar arrays with varying voltages and currents. Choosing the incorrect size can lead to both power loss and inefficiency. Thus, it's crucial to choose the right size for.
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A Solar Photovoltaic Module is available in a range of 3 WP to 300 WP. But many times, we need powerin a range from kW to MW. To achieve such a large power, we need to connect N-number of modules in series and parallel. A String of PV Modules When N-number of PV modules are connected in series. The entire. Sometimes the system voltage required for a power plant is much higher than what a single PV module can produce. In such cases, N-number of PV modules is connected in series to deliver the required voltage level. This series. Sometimes to increase the power of the solar PV system, instead of increasing the voltage by connecting modules in series the current is increased by. When we need to generate large power in a range of Giga-watts for large PV system plants we need to connect modules in series and parallel. In.
The first method we will look at for connecting solar panels together is what's known as “ Series Wiring “. The electrical connection of solar panels in series increases the total system output voltage. Series connected solar panels are generally used when you have a grid connected inverter or charge controller that requires 24 volts or more.
The parallel combination is achieved by connecting the positive terminal of one module to the positive terminal of the next module and negative terminal to the negative terminal of the next module as shown in the following figure. The following figure shows solar panels connected in parallel configuration.
To correctly configure the series and parallel connections of solar panels, so that the electrical parameters comply with the operating specifications of the inverters, you can rely on the photovoltaic system design software. A single photovoltaic cell is not able to generate a current and a voltage sufficient to power the loads typically used.
A schematic of a solar PV module array connected in series-parallel configuration is shown in figure below. The solar cell is a two-terminal device. One is positive (anode) and the other is negative (cathode). A solar cell arrangement is known as solar module or solar panel where solar panel arrangement is known as photovoltaic array.
The following figure shows PV panels connected in series configuration. With this series connection, not only the voltage but also the power generated by the module also increases. To achieve this the negative terminal of one module is connected to the positive terminal of the other module.
The connection of solar panels in a photovoltaic system can be in series or in parallel. Discover the main differences and installation methods The connection of solar panels is an important phase in the design of a photovoltaic system, as it directly affects the system's performance and overall efficiency.
At this moment, the most common way to laminate a solar panel is by using a lamination machine. This old-fashioned method has many disadvantages but is used by the large majority of solar panel manufacturers. PV lamination is a proven concept and works as follows: In order to laminate a solar panel, t. This way of laminating is a proven concept, but it has disadvantages: a lamination machine is large, expensive, and consumes much electricity. Moreover, a lamination machine is slowa. Nowadays there are numerous encapsulants that are most likely going to replace the old-fashioned way of laminating. A company that is a leader in innovation and h.
Solar panel lamination is crucial to ensure the longevity of the solar cells of a module. As solar panels are exposed and subject to various climatic impact factors, the encapsulation of the solar cells through lamination is a crucial step in traditional solar PV module manufacturing.
As solar panels are exposed and subject to various climatic impact factors, the encapsulation of the solar cells through lamination is a crucial step in traditional solar PV module manufacturing. At this moment, the most common way to laminate a solar panel is by using a lamination machine.
Solar module lamination is a procedure that involves the placement of solar cells between layers of material with the intention of not only providing protection but also weather resistance to the module. However, this is of utmost importance because it protect the components from the environment, like moisture, dust, and contact stress.
PV module lamination increases the durability of solar panels. By encapsulating the solar cells and connections within a protective material, the panel is shielded from the elements and is less likely to be damaged by environmental factors such as moisture, temperature changes, and physical impact.
PV module lamination increased the efficiency of solar panels. The protective layer used in lamination is typically made of ethylene vinyl acetate (EVA), a material that has been shown to improve the efficiency of solar panels by up to 2%.
A solar panel laminator is a machine that is used to make solar panels. This machine uses heat and pressure to stick different layers of the photovoltaic module together. The laminator makes sure that the solar cells are sealed within the protective layers of the solar module, creating a strong bond.
Enter your postcode in the box above and instantly compare solar panels from local solar installers. Optionally select your own roof on Google Maps to refine the results for your own roof.
Use our website to compare roof solar panels for your own home based on installer experience, warranty, and consumer feedback. Instantly see 100+ prices from local solar panel installers – do it all online, and in less than 5 min! More: Compare Solar Panels - Best Solar Panels - Solar PV Calculator
To get the most accurate price for solar panels and find the best installer for the job on your home, Solar Guide is the ideal solution. By filling out a simple 30-second form, we can provide you with up to 4 quotes from professional installers in your area.
Here you can easily compare solar panel prices and quotes and find the lowest-cost panels. Simply type your postcode into the box below and select one or many local and national, trusted solar panel installers and ask them for a quotation. Using this feature will help ensure you get the best price possible and is designed to save you money.
Enter your postcode in the box above and instantly compare solar panels from local solar installers. Optionally select your own roof on Google Maps to refine the results for your own roof. Go ahead, get started: Use our website to compare roof solar panels for your own home based on installer experience, warranty, and consumer feedback.
From 2016 the rate is expected to drop towards 4.39 pence. (more...) Solar panel prices dropped two-thirds since early 2011. A 4kWp system (16 solar panels) that used to cost £15.000 is currently available from £5.000. On a South-facing roof these panels will pay back about £860 per year, which is a return of 17% on the purchase price. (more...)
Labour costs to install the solar panels are typically included in the quote. But as a guide, expect to pay around £300 per day, per installer. Tip: When hiring a solar panel installer, remember to look for accreditation from the MCS (Microgeneration Certification Scheme). Adding a solar battery will increase your solar panel installation costs.
This 5 watt solar panel is great for charging your 12-volt DC batteries and ideal for use in off grid applications such as solar lighting, solar powered security lights, security beam detectors etc.
This 5-watt solar panel has an MPPT chip (maximum power point technology), which makes it generate 20-30% more power compared to normal PWM (pulse width modulation). It prevents overcharge, over-discharge, and short circuits. Furthermore, the solar panel is waterproof, spark-proof, and has a fully protected battery.
You can adjust the angle of this solar panel to absorb maximum sunlight and generate maximum power. This 5-watt solar panel has an MPPT chip (maximum power point technology), which makes it generate 20-30% more power compared to normal PWM (pulse width modulation). It prevents overcharge, over-discharge, and short circuits.
Roof Mounting for Solar Panel. High Rating Inverter The system includes: * 5KW of SOLAR PANELS : 16 x Solar Panels 315Watts (approx.) (size 77"x39") . *5KW GRID TIE INVERTER : SMA Sunnyboy (UL-1741 approved);97% efficiency; SMA highest ranked company. Provides power during a grid outage without battery.
Solar panel watts, or wattage, represent the panel's expected power production under ideal sunlight and temperature conditions. Typical modules are rated between 250 to 400 watts, with higher watt modules being the preferred options.
Furthermore, the solar panel is waterproof, spark-proof, and has a fully protected battery. Moreover, this 5-watt solar module has smart charge controller LED indicators to check the status of the battery.
Features: This 5W solar panel is a 20-solar cell assembly (10V) mounted onto a TPT backplate and covered with rigid tempered glass which protect the solar cells inside. The cell is high efficient polycrystalline solar cell. This 10V solar panel is lightweight and durable. It's also waterproof, UV resistant and scratch resistant.
Solar panel covers are used for a few different reasons. Mesh covers and abatement screens are put in place to keep birds from nesting under the panels and causing damage. 1. Home-made boards 2. Manufacturer's supplied covers 3. Tarp 4. Sun Covers Because solar panels are made in all types of sizes, there are no. These screens are mounted at the top of each panel and rolled up or down. Sheets can be attached via the loops and connected to a firm surface with hooks and ropes. Hard shells are installed using a special mounting. While one of the main purposes of covering a solar panel is to prevent damage, some owners cover their panels to also prevent energy overload when the panels are not in use. Solar panels are meant to withstand a major hailstorm without becoming damaged. Solar panel manufacturers test their panels for up to one-inch hail balls. While most solar panels.
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Most of the home solar panels that installers offer in 2025 produce between 390 and 460 watts of power, based on thousands of quotes from the EnergySage Marketplace.
Let's say you get 25 450-watt solar panels installed on your roof: That gives you a 11,250 watt, or 11.25 kW solar panel system (near the average system size quoted on the EnergySage Marketplace).
Typically, a 250 watt solar panel running at its maximum efficiency for 7 hours a day can provide you with 1.75 kWh of output. Again, it will depend on the sunlight and the positioning of the panel. Dive into further reading on the pros and cons of solar energy to determine the average solar panel output that can meet your needs.
A 400 W solar panel can produce around 1.2-3 kWh or 1,200-3,000 Wh of direct current (DC). The power produced by solar panels can vary depending on the size and number of your solar panels, the efficiency of solar panels, and the climate in your area. How many solar panels are needed to run a house?
The most well-known type is 400 W solar panels, which produce an energy range of 1.2-3 kWh. The higher the wattage, the better energy production efficiency your solar panels will have! These solar panels can range between 400-600 dollars, depending on size, wattage, and solar panel producers in your country.
Usually, it is 1.2 to 1.5 which is multiplied by the desired output. For example with a 20% buffer, the required solar panel output with Buffer (Watts) = 6 kW×1.20 = 7.2 kW Nevertheless, when you are choosing solar panels make sure their power ratings equal or surpass the required output to meet your energy needs and preferences.
Here's how we can use the solar output equation to manually calculate the output: Solar Output (kWh/Day) = 100W × 6h × 0.75 = 0.45 kWh/Day In short, a 100-watt solar panel can output 0.45 kWh per day if we install it in a very sunny area.
The dimensions of an average 440 Watt solar panel may vary, but are about 82. The solar panels we currently offer weigh around 61 lbs but that may also vary.
Get in touch now The JA Solar 440W Solar Panel is Assembled with multi-busbar PERC Cells, the half cell configuration of the modules offers the advantages of high power output, better temperature-dependant performance, reduced shading effect on the energy generation, lower risk of hotspot, as well as enhanced tolerance for mechanical loading.
The size of a 440 watt solar panel varies depending on the manufacturer and model. On average, they have dimensions of about 82.5” x 41” x 1.38".
JA Solar Full Black 440w n-type bifacial module. As a photovoltaic power generation solution platform, JA Solar Technology Co., Ltd. continues to advance its "One Body, Two Wings" strategy.
Despite being connected to the utility grid, a 440 watt solar panel system may have extra battery storage as a backup. The actual power output of a 440W solar panel depends on various factors, including geographic location, shading, weather conditions, and the tilt of your panels.
A 445W solar panel weighs approximately 52 lbs. The dimensions are approximately 82 inches in length and 42 inches in width. Modules with this output rating are predominantly monocrystalline and usually have 72 cells or more. The efficiency of 445W solar panels varies from 15 to 22% depending on the manufacturer.
330W solar panels tend to weigh about 40 lbs, being approximately 65 inches long and 43 inches wide. Monocrystalline modules with this wattage tend to have 60 cells, but polycrystalline ones could have 72 due to lower efficiency. The efficiency range of 330W solar panels lies between 15 and 22% depending on the manufacturer.
The list of items you need to connect a solar to a water pump include: 1. Solar panels— You will have to calculate the amount of energy needed to fill the solar batteries. That number will change based on the size of the pump and the number of direct hours of sunlight that the solar panel. You could connect a solar panel directly to a water pump. It is not a good idea, though. The erratic pulse of electricity produced by the solar panel will burn out the pump at some point. That process can take a few seconds to a few years. The point is that. If you need to know how many solar panels it takes to power a water pump, you may be shocked that there is no standard answer. The issues are twofold: 1. The wattage of the. If you are wondering if your solar water pump needs a battery system, the answer might be complicated. Here's why. If the water pump has a grid-tied connection, you don't need a.
[PDF Version]Solar pumps are manufactured to supply an eco-friendly and less expensive solution to pumping water in areas where there is no access to the power grid. It consists of a water storage tank, electrical cables, a breaker/fuse box, a DC water pump, a solar charge controller (MPPT), and a solar panel array. It is more efficient to operate.
In conclusion, connecting a solar panel to a water pump offers an eco-friendly and effective solution. By ensuring correct wiring and system setup, you can harness solar energy to power your water pump. Additionally, note that for optimal performance, connecting multiple panels might be necessary.
With our DC Direct Solar Pumps, there's no need for a big inverter to power the pump. In fact, we see that most water pumping applications are well suited for solar systems that are directly connected to solar panels. Let's chat through a few examples of when a solar powered pump might be a better option compared to its AC counterpart:
In fact, we see that most water pumping applications are well suited for solar systems that are directly connected to solar panels. Let's chat through a few examples of when a solar powered pump might be a better option compared to its AC counterpart: Example 1: Josh's utility company has hiked up rates for the third time in two years.
Solar pumps are used to supply water to animals. They are used for irrigation applications. They are used to supply water for drinking and cooking purposes. These pumps may be used to power waterfalls, fountains, and other water features in landscapes and gardens.
The solar panel is used to capture energy from the sun. The pump controller regulates the power flow from the panel to the pump. When the pump gets power by the panels, it starts working and pumps water from a well or other water source. Some solar systems also contain a storage tank to store water for later use.
Residential solar panels typically measure around 65 inches by 39 inches, with power output ranging from 250 to 400 watts. The right size depends on your energy consumption, roof space, and budget.
Assess Your Energy Needs: The first step in choosing the right solar panel size is to determine how much energy you need to generate. This will depend on whether you're powering an entire home, a business, or just looking for portable energy for outdoor use.
A1: For homes, it's about 1.7m x 1.0m. For commercial projects, around 2.0m x 1.0m. Portable panels vary widely. Q2: Do bigger panels mean better performance? Not always. Efficiency matters too. A smaller panel with high efficiency can outperform a larger, less efficient one.
Solar panel size directly affects: Choosing the right dimensions ensures that your system fits your space while generating enough electricity to meet your needs. Let's explore the most common solar panel size dimensions available today: 1. Residential Solar Panels These are the most popular panels for homes. 2. Commercial Solar Panels
For homes with smaller roofs, 60-cell panels may be the best option as they offer a balance between size and power output. If you have a larger roof or yard, 72-cell or 96-cell panels can provide more power in a fewer number of panels, maximizing your efficiency. Factor in Your Budget: Finally, consider your budget.
On average, most homes require a system between 5kW and 7kW, but this can vary widely. It's advisable to consult with a solar expert who can assess your specific needs and recommend the best system size for your home. Jeff has consulted on over 20MW of commercial solar projects, ranging from SMEs to ASX top 100 companies.
Using our solar system payback calculator, we have identified the optimal solar system for these two electricity usage scenarios. We can see that for 20kWh electricity usage under a morning and evening peak profile, the best solar system size is 6kW for return on investment. For the daytime focus electricity load profile, the best size is 6kW.
A photovoltaic system, also called a PV system or solar power system, is an electric power system designed to supply usable solar power by means of photovoltaics.
The application of solar PT-PV technology is an important way to achieve clean energy supply and energy conservation and emission reduction in building field. Simultaneously meeting the thermal and electric need of building is one of the main development directions of solar PT-PV energy supply system.
1. Introduction Solar photovoltaic (PV) technology is clean way of generating electric power directly from solar radiation. Its small to large isolated and grid connected applications have become common in various parts of the world.
PV systems convert light directly into electricity and are not to be confused with other solar technologies, such as concentrated solar power or solar thermal, used for heating and cooling.
Solar thermal/electric energy supply system based on HES is a sustainable energy solution. The system has many advantages. First, it improves solar energy utilization efficiency by converting solar energy into electricity and storing it for use at night or on cloudy days.
For solar PV systems, a special bi-directional electric meter is used to measure both the incoming energy from the utility, and the outgoing energy from the solar PV system. Finally, the wiring or electrical cables transport the electrical energy from and between each component and must be properly sized to carry the current.
The thermal and electric energy supply technology with solar energy utilization as the core for building, comprises solar PT technology, solar PV technology, and solar photothermal-photovoltaic (PT-PV) comprehensive technology. The solar PT technology started early and has developed rapidly in the field of building heating.