Our Products
Solar on-grid/net metering system
(Design and Installation)
A solar on-grid/net metering system is a type of solar power system that is connected to the electricity grid. This system allows excess solar energy produced by the solar panels to be fed back into the grid, and in turn, the owner of the system can receive credit for the excess electricity produced. This is known as net metering, and it allows homeowners and businesses to offset their electricity costs and even earn money from their solar power system.
Here’s how a solar on-grid/net metering system works:
Solar panels on the roof or ground of a building collect energy from the sun.
The solar panels convert the sunlight into direct current (DC) electricity.
An inverter converts the DC electricity into alternating current (AC) electricity, which is the type of electricity used in homes and businesses.
The AC electricity is then used to power the building’s appliances, lighting, and other electrical devices.
Any excess electricity produced by the solar panels is sent back into the electricity grid.
The owner of the solar power system receives a credit for the excess electricity produced, which can be used to offset their electricity costs.
By using a solar on-grid/net metering system, homeowners and businesses can reduce their dependence on traditional grid electricity and help to reduce their carbon footprint. This type of system can also help to stabilize the electricity grid by reducing the peak demand for electricity during the day, which can help to prevent power outages and reduce the need for new power plants.
Solar off-grid & hybrid system
(Design and Installation)
A solar off-grid system is a self-sufficient system that generates and stores energy from solar panels without relying on the electrical grid. It typically consists of solar panels, a charge controller, a battery bank, and an inverter. The solar panels collect energy from the sun and charge the battery bank through the charge controller. The inverter then converts the DC power stored in the battery bank into AC power that can be used to power appliances and devices in a home or building.
A hybrid solar system, on the other hand, combines the benefits of a solar off-grid system with the reliability of the electrical grid. It includes solar panels, a charge controller, a battery bank, an inverter, and a grid connection. During periods of high energy demand, the hybrid system can draw additional power from the grid. Conversely, when excess energy is produced, the system can feed power back into the grid.
Both solar off-grid and hybrid systems can be used in remote locations where it is not feasible to connect to the electrical grid or in areas with frequent power outages. They can also help reduce electricity costs and reliance on non-renewable energy sources. However, they require careful planning and installation to ensure optimal performance and safety.
Online & offline UPS system
(Sizing, design and deployment)
An Uninterruptible Power Supply (UPS) is a backup power system that provides emergency power to a load when the main power source fails. There are two types of UPS systems: online and offline.
Online UPS System: An online UPS system, also known as a double-conversion UPS, provides continuous power to the load through a battery backup system. It uses an AC to DC converter to charge the battery continuously and an inverter to convert DC power back to AC power to supply the load. In this system, the load is always powered by the inverter, which provides high-quality power that is isolated from the mains supply, ensuring a constant, clean power supply to sensitive equipment. This makes online UPS systems ideal for critical loads such as data centers, hospitals, and other applications where a reliable and uninterrupted power supply is essential.
Offline UPS System: An offline UPS system, also known as a standby UPS, provides backup power to the load only when the main power source fails. It uses a switch that automatically transfers power from the main power source to the battery backup system when the voltage falls below a certain threshold. Once the voltage is restored, the system switches back to the main power source, and the battery is recharged. The offline UPS system provides a cost-effective and reliable power backup solution for home and office use, where the critical load is less sensitive to power quality issues.
In summary, an online UPS system provides continuous power to the load through a battery backup system, while an offline UPS system only provides backup power when the main power source fails. The choice of which type of UPS system to use depends on the criticality of the load and the specific needs of the application.
Solar water heater & Electrical geysers
(Supply systems design and installation)
A solar water heater and an electric geyser are two different types of water heating systems.
Solar Water Heater: A solar water heater uses the sun’s energy to heat water. It consists of a solar collector, which absorbs sunlight and converts it into heat energy, and a storage tank, which stores the hot water. The solar collector is usually mounted on the roof, facing south to maximize exposure to sunlight. Solar water heaters can be either passive or active systems. Passive systems rely on gravity to circulate water, while active systems use a pump to circulate water between the collector and storage tank. Solar water heaters are a sustainable and cost-effective option for water heating, as they use renewable energy and can reduce energy bills.
Electric Geyser: An electric geyser, also known as an electric water heater, heats water using an electrical element. The electric element is submerged in the water, and when switched on, it heats the water to the desired temperature. The heated water is stored in a tank until needed. Electric geysers are commonly used in homes and businesses where hot water is required for various applications. They are generally more expensive to operate than solar water heaters because they use electricity, which is often generated from non-renewable sources and can result in high energy bills.
In summary, a solar water heater uses the sun’s energy to heat water, while an electric geyser uses an electrical element to heat water. While both are effective at providing hot water, a solar water heater is a more sustainable and cost-effective option, as it uses renewable energy and can reduce energy bills in the long term. An electric geyser is a more conventional option, commonly used in homes and businesses where hot water is required.
Solar agriculture water pumping system
(Sizing, design and deployment)
A solar-powered water pumping system for agriculture uses solar energy to pump water from a well or other source to irrigate crops or provide water for livestock. It consists of solar panels, a pump, a controller, and a storage tank.
The solar panels are installed in a location that receives maximum sunlight and convert the sun’s energy into DC electricity. This electricity is then fed to the controller, which regulates the flow of power to the pump. The pump draws water from the well or source and delivers it to the storage tank. The storage tank can be located at a higher elevation than the crops, allowing gravity to distribute the water through the irrigation system.
Solar agriculture water pumping systems have several advantages. They are environmentally friendly, as they do not emit any harmful pollutants and do not rely on non-renewable energy sources. They are also cost-effective in the long run, as they require minimal maintenance and have lower operating costs than traditional diesel or electric pumps.
In addition, solar water pumping systems can be installed in remote areas where access to electricity is limited or nonexistent, providing a reliable source of water for irrigation and livestock. They also allow farmers to save time and increase efficiency by automating the irrigation process and providing water on demand.
Overall, solar agriculture water pumping systems are a sustainable and cost-effective solution for farmers who need a reliable source of water for their crops and livestock.
Solar home UPS
(Supply systems design and installation)
A solar home UPS (Uninterruptible Power Supply) is a type of inverter that uses solar energy to provide backup power during power outages. It consists of a solar panel, battery, and inverter.
The solar panel is installed on the roof or other location where it can receive maximum sunlight, and it converts the sun’s energy into DC electricity. The DC electricity is then stored in the battery, which can be used to power the inverter during power outages or when the grid power is unavailable.
The inverter converts the DC electricity from the battery into AC electricity, which can be used to power appliances and electronic devices in the home. The solar home UPS system can also be connected to the grid, allowing excess solar energy to be fed back into the grid and reducing energy bills.
Solar home UPS systems have several advantages. They provide a reliable source of backup power during power outages and can reduce reliance on grid power. They are environmentally friendly, as they use renewable solar energy and do not emit any harmful pollutants. They are also cost-effective in the long run, as they require minimal maintenance and have lower operating costs than traditional diesel or petrol generators.
In addition, solar home UPS systems can be expanded as needed by adding more solar panels and batteries, providing a scalable solution for future energy needs.
Overall, a solar home UPS is a sustainable and cost-effective solution for households looking to reduce their reliance on grid power and provide backup power during power outages.
Solar power backup for petrol pumps
(Supply systems design and installation)
A solar power backup system for petrol pumps is a reliable and cost-effective solution to provide backup power during power outages. The system consists of solar panels, batteries, an inverter, and a controller.
Solar panels are installed on the roof of the petrol pump or in an area with maximum sunlight exposure to generate electricity from the sun. The electricity generated from the solar panels is stored in the batteries, which can be used to power the inverter during power outages or when grid power is unavailable.
The inverter converts the DC electricity from the batteries into AC electricity, which can be used to power the petrol pump’s electrical equipment, including fuel dispensers, lighting, and air compressors. The controller regulates the flow of electricity between the solar panels, batteries, and inverter.
Solar power backup systems for petrol pumps have several advantages. They are environmentally friendly, as they use renewable solar energy and do not emit any harmful pollutants. They are also cost-effective in the long run, as they require minimal maintenance and have lower operating costs than traditional diesel or petrol generators.
In addition, solar power backup systems can provide a reliable source of backup power during power outages, ensuring uninterrupted operations at the petrol pump. They can also reduce dependence on grid power, which can be unreliable or unavailable in certain areas.
Overall, a solar power backup system for petrol pumps is a sustainable and cost-effective solution for petrol pump owners looking to provide reliable backup power and reduce their dependence on grid power.
Solar street lighting
(Design and execution)
Solar street lighting is a sustainable and cost-effective solution for illuminating streets, roads, and other public areas. It consists of a solar panel, battery, LED lights, and a controller.
The solar panel is installed on top of a pole or on a nearby roof to collect solar energy during the day. The solar energy is then stored in the battery, which can be used to power the LED lights at night. The LED lights are connected to the battery and are mounted on a pole at a suitable height to provide adequate lighting for the street or public area.
The controller regulates the flow of electricity between the solar panel, battery, and LED lights, ensuring optimal performance and efficient use of the stored solar energy. The solar street lighting system can also include motion sensors and timers to turn on and off the lights automatically based on the presence of pedestrians or vehicular traffic.
Solar street lighting has several advantages. It is environmentally friendly, as it uses renewable solar energy and does not emit any harmful pollutants. It is also cost-effective in the long run, as it requires minimal maintenance and has lower operating costs than traditional grid-powered street lights.
In addition, solar street lighting can be installed in remote or off-grid areas, providing lighting in areas where grid power is unavailable or unreliable. It also enhances safety and security by providing adequate lighting for pedestrians and vehicles, reducing the risk of accidents and crime.
Overall, solar street lighting is a sustainable and cost-effective solution for providing lighting for streets, roads, and other public areas. It provides a reliable source of lighting, reduces energy costs, and enhances safety and security in public areas.
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