FAQ

No, there should be no shading of the direct rays of the sun to the panels as this will restrict the panel’s output. Security of our systems is paramount and we not only secure but mount appropriate alarms if need be.

No, single panels produce minute DC voltage which is harmless but the voltage across an inverter in the same system can be lethal. Further strings of panels should be treated with caution for they carry high voltages such as in borehole pumping applications, grid tie, mini grids and high DC voltage inverter PV systems.

Large solar plants, also known as utility-scale solar power plants, are vast solar energy installations designed to generate significant amounts of electricity, typically in the range of megawatts (MW) to gigawatts (GW). These plants consist of thousands or even millions of solar panels arranged in large fields to harness sunlight and convert it into electricity on a large scale. The electricity generated is fed directly into the power grid, where it can supply energy to homes, businesses, and industries.

Benefits of Large Solar Plants:

1. Renewable and Sustainable: Solar energy is a clean, renewable resource that doesn’t produce harmful emissions or pollutants.
2. Reduced Electricity Costs: Over time, large solar plants can provide energy at a lower cost compared to conventional fossil fuel-based plants, especially as technology improves and installation costs decrease.
3. Energy Security: By diversifying the energy mix, solar plants contribute to energy independence, reducing reliance on imported fuels.
4. Job Creation: The development and maintenance of large solar plants create jobs in various sectors, including construction, engineering, and operations.

Challenges of Large Solar Plants:

1. Land Use: Large solar installations require significant amounts of land, which may compete with agricultural or conservation efforts, especially in densely populated or ecologically sensitive areas.
2. Intermittency: Solar power production is weather-dependent and intermittent, making it necessary to integrate energy storage systems or backup power sources to ensure a reliable supply of electricity.
3. High Initial Investment: While costs are decreasing, the initial capital required to develop a large solar plant can be high, and financial backing is often necessary for development.
4. Environmental Impact: Although solar energy is clean, the production and disposal of solar panels can have environmental impacts, and large-scale plants may affect local ecosystems.

Despite these challenges, large solar plants remain a key solution for transitioning to a more sustainable and reliable energy future, offering long-term benefits for both the environment and the economy.

Lithium batteries offer high energy density, long cycle life, fast charging, and low maintenance, making them ideal for large-scale energy storage systems.

Solar batteries last longer than car batteries in a solar system. Battery management is the key to a long life battery. If you have a good regulator, keep the water level topped up and grease the battery terminals occasionally, it can last for over 10 (ten) years before needing replacement. New technology has also brought in batteries with over fifteen years lifespans such as lithium batteries. Battery terminals should be firm and effective.