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Apart from offering the aesthetic function of buildings, they also power the buildings, reducing their energy consumption.

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The grid-tied solar system consists of PV modules, grid-connected inverters, photovoltaic meters, loads, two-way meters, grid-connectedcabinets, and grids. The PV modules generate direct current from sunight and convert them into alterating current to supply loads andsend them to the grid. Grid-connected solar systems mainly have two modes of Internet access, one is "spontaneous and self-use, surplus electricily goes online",and the other is "ull online access" Generally, distributed solar systems mainly adopt the mode of"spontaneous generation and self-use.surplus electricity to go online". The electricity generated by solar cells is given priority to the load. When the load is not used up, theexcess electricity is sent to the grid. The photovoltaic system can supply power to the load at the same time.

Off-grid solar systems operate independently without relying on the power grid, and are used in remote places, areas without electricity,islands, communication base stations, and street ights, The system is composed of solar array,solar inverter, controler, battery pack, loadand so on. The photovoltaic array converts solar energy into electrical energy when the sun is shining,and powers the load through theintegrated solar control inverter, and at the same time charges the battery pack, when there is no sunshine,the battery powers the AC loadthrough the inverter.

Hyorid solar systems are widely used in applications where there are frequent power outages, or Photovoltaic for spontaneous self-usecannot be connected to the grid, self-use electricity prices are much more expensive than on-grid electricity prices, and peak electricityprices are much more expensive than trough electricity prices The system consists of solar panels, battery packs, loads, hyobrid inverter and controller (allin-one machine),etc. When the sun is shining,the off grid solar aray converts solar energy into electric energy,the load is supplied by the allin-one machine, and the battery pack ischarged at the same time; when there is no sunshine, the battery powers the solarinverter with MPPT machine, and then AC load powersupply Compared with the grid-connected solar system,the hybrid solar system adds charge and discharge controlers and batteriesThe system costhas increased by about 30%, but the application range is wider. One isthat it can be set to outputat the rated power at thepeak of the electricity price to reduce electricity expenses, the second is that it can be charged in the valley of the electricily pricedischarge at the peak, and use the peak-valley price diference to make money, third, when the power grid is out of power,the solar systemworks as a backup power source continually, the inverter can be switched to off-grid working mode, and photovoltaic and storage batteriescan supply power to the load through the inverter.

Here are some guidelines.   Northern Hemisphere: For maximum annual energy production, solar panels should ideally face true south.Iffacing true south is not possible,a general rule is to orient the panels towards the southwest for a g0od compromise between morningand afternoon sunlight exposure.   Souther Hemisphere: For maximum annual energy production, solar panels should ideally face true north. If facing true north is not possible, a general rule is to orient the panels towards the northwest for a good compromise.   Equatorial Regions: In equatorial regions, solar panels can be tilted close to a vertical position for optimal exposure to the sun throughout the day,   Tilt Angle: The tilt angle ofthe solar panels is also important. Itis often recommended to set the tilt angle equalto the latitude of the location for fixedinstallations. For seasonal adjustments,the tilt angle can be adjusted a few times a year to optimize energy production during different seasonsTracking Systems. In some cases,solar tracking systems are used to followthe path of the sun throughout the day, adjusting the angle of the solar panels formaximum exposure, While tracking systems can increase energy production, they are more complex and expensive compared to fixedinstallations. It's worth noting that local conditions, shading, and specific project goals can inluence the optimal orientation and tilt angle. Additionally,with advancements in technology,some solar panels and systems are designed to be more tolerant to suboptimal orientations or partialshading.   To know more information about new energy,please contact Sunrange Energy right now.As solar panel manufacturer and the providerof the solar solutions,we can answer allyour questions about new energy and photovoltaic based on our over 10 year professionalexperience.   Our e-mail address: Info@sunrangeenergy.com

Bifacial solar panels are a type of photovoltaic module that can capture sunlight from both the front and rear sides of the panel. Unliketraditional solar panels that only utilize sunlight from the front side, bifacial panels have a transparent backsheet that allows sunlight to passthrough and be reflected onto the rear surface of the solar cells, This design enables them to generate electricity from both direct sunlightand reflected sunlight,typically from surfaces such as the ground or nearby structures. Key features of bifacial solar panels include: Double-sided Absorption: Bifacial panels have solar cells on both the front and back sides. This allows them to capture sunlight that isreflected off surfaces, such as the ground or nearby structures, in addition to direct sunlight. Transparent Backsheet The backsheet of bifacial panels is made of transparent or translucent material, allowing sunlightto penetratethrough to the rear side of the solar cells. Albedo Effect: The albedo effect refers to the reflection of sunlight off surfaces, and bifacial panels leverage this effect to generateadditional electricity. The reflected sunlight increases the overall energy yield of the panel. Increased Energy Yield: Bifacial solar panels have the potential to achieve a higher energy yield compared to traditional monofacial panels especially in environments with high albedo (high reflectivity) surfaces, such as snowy landscapes or areas with ight-colored surfacesVersatilty in Installation: Bifacial panels can be installed in various configurations, including ground-mounted systems, building-integratedinstallations, or raised installations to allow light to reach the rear side of the panels. While bifacial solar panels offer advantages in terms of increased energy capture, thoir performance is infiuenced by factors such as thealledo of the surrounding surfaces, the til and height of the panels, and the overall system design.Bifacialtechnology is evolving, andongoing research and development aim to optimize their efficiency and cost-effectiveness

A home solar panel system consists of solar arrays, an inverter, wiring and support materials and a few other key components ike smartmeter. Sunlightis converted bythe solar panels into DC electricily. The Inverter converts the DC into AC current so your home appliancescan use it Itis no different than the electricity you are getting from the gnid. The battery stores the extra electricity so it can be used later,ike on a cloudy day or during the evening. By relying on battery backups, solar energy can provide electricity24/7 to your home. If youhave a net metering program with your utility you can use the grid as your battery' storage for the excess energy when you are producingmore and consuming less. You get credits for what you have given to the grid and you can use those credits at a later time. To know more information about new energy,please contact Sunrange Energy right now. As a manufacturer and the providerof the solar solutions,we can answer allyour questions about new energy and photovoltaic based on our over 10 year professional experience.

Solar energy refers to the radiant ight and heat from the Sun that is harnessed and converted into usable forms of energy. This energy isabundant and sustainable, making it a popular source for renewable power. Solar Photovoltaic (PV) Technology. This technology converts sunight directly into electricity using solar cells. Solar cells, also known asphotovoltaic cells, are made of semiconductor materials (such as silicon) that absorb photons of sunight When these photons areabsorbed, they create an electric current. Multiple solar cells are connected to form a solar panel, and multiple panels can be installed tocreate a solar array. Solar photovoltaic have the adivantage of being clean and renewable, producing electricity without emittinggreenhouse gases or otherpollutants. Solar energy is harnessed globall for a variety of applications, including residential and commercial power generation, waterheating, and as a power source for spacecraf.    The main challenge with solar energy is its intermitlency, as it depends on sunlight, whichcan be alfected by weather conditions and the time of day.Advances in energy storage and grid integration are being explored to addressthese challenges and make solar energy more reliable.    To know more information about new energy,please contact Sunrange Energy right now.As a manufacturer and the providerof the solar solutions,we can answer allyour questions about new energy and photovoltaic based on our over 10 year professionalexperience.