On Grid Solar Generator
100kw Grid-Tie Solar Power System
products formPRODUCTS
| 100KW Hybrid Solar System with growatt ESS inverter(Three Phase) | |||
| Serial | Name | Description | Quantity |
| 1 | Solar Panel | Mono Half Cell 570W | 180 Pcs |
| 2 | Inverter | 100kw Grid Tied Three Phase -MAX 100KTL3-X LV | 1 Pcs |
| 5 | Mounting Structure | Flat or Pitched roof/galvanized steel or al.alloy | 1 Group |
| 6 | PV Cable | 4mm2 PV Cable | 300 |
| 7 | DC isolator/MC4 Connectors... | DC isolator/MC4 Connectors... | 1 Group |
| Customized Service Available, +86 166 5717 3316 / info@essolx.com | |||
products DESCRIPTIONPRODUCTS
100kW Grid Tie Solar System Packing Information
1. Solar Panels high efficiency 21.6%, 180 pcs of 570W solar panels of Canadian solar/longi solar/jasolar/Trina solar
2. Grid-Tie inverter 100kw, three phase, high voltage,Growatt MAX 100KTL3-X LV
3. DC Fuses and AC Disconnectors
4. Double-insulated colour coded, cable for solar panels
5. A wide range of aluminum and stainless steel components and systems are available to facilitate the fastening of any solar photovoltaic module. You can choose between portrait or landscape configuration, ground mounts, and roof mounts of all kinds.
HOW COMMERCIAL SOLAR POWER SYSTEMS WORK
There isn't a lot of difference in how a commercial grid-connected solar power system operates compared to one used for a home.
Commercial solar power systems harness energy from sunlight and convert it into electricity. Here's a simplified explanation of the process:
Solar Panels: Photovoltaic (PV) solar panels, typically mounted on rooftops or can be ground mounted, are made up of many solar cells. These cells contain semiconductor materials (usually silicon) that can absorb sunlight.
Sunlight Absorption: When sunlight hits the solar panels, the solar cells absorb photons (particles of light). This energy excites electrons within the cells, causing them to move and generate a direct current (DC) of electricity.
Inverter Conversion: The DC electricity generated by the solar panels is sent to an inverter. The inverter's primary function is to convert the DC electricity into alternating current (AC), which is the standard form of electricity used in commercial buildings. 3-phase inverters are available for equipment that require 3-phases.
Energy Distribution: The converted AC electricity is then distributed to the building's electrical system. It can be used to power various devices, machines, lighting, and other electrical needs of the commercial establishment.
Exporting Solar: In some cases, excess electricity generated by the solar panels that isn't immediately used by the building can be sent back to the grid. Where the excess electricity is credited to the building's account, potentially leading to cost savings.
Importing Grid Power: During times when the solar panels are not producing enough electricity (such as at night or on cloudy days), the building can draw electricity from the grid as needed. This ensures a continuous and reliable power supply.
Monitoring and Maintenance: Commercial solar power systems are equipped with monitoring systems that allow operators to track the system's performance, energy production, and potential issues. Regular maintenance ensures that the system operates efficiently and effectively.
It's important to note that the specifics of commercial solar power systems can vary based on factors such as the size of the installation, location, available sunlight, and the building's energy requirements. Additionally, energy storage solutions (such as solar batteries) can be integrated into the system to store excess energy for later use, further enhancing the system's reliability and independence from the grid.
