Solar Implementation Journey

Site Evaluation

Solar site assessment is the process of evaluating a potential location for installing a solar energy system. This assessment is crucial to support a future installation of a solar energy system and ensure that it will operate efficiently. Investors need to understand the specific site requirements and conditions that help to optimize a solar power plant’s output. A solar site assessment involves the evaluation of site suitability, solar access, shadowing considerations, site approach, power evacuation and other variables.

Design & Engineering

The solar power design presented, in addition to reviewing the various electrical design methodologies, provides detailed insight into photovoltaic modules, inverters, charge controllers, lightning protection, power storage,
battery sizing, and critical wiring requirements. To assist the reader with the economic issues of solar power cogeneration, a detailed analysis of a typical project, including system planning, photovoltaic power system cogeneration estimates, economic cost projection, and payback analysis.

Installation & Commissioning

Installation & Commissioning incorporates actual execution of the Solar project i.e. Installation of all the solar system components in your premises. Solar system components include Solar Panels, Invertors, Metallic structure for mounting solar panels, DC & AC Switch gears for switching & protection, DC & AC Cables for power conduction & a Meter for measuring the actual total units generated by your system. It’s always better to split any procedure into steps for better understanding. It is required to understand the importance of proper Installation to insure the Durability (Life) of the Project.

Operation & Maintenance

SVES also offers after solar power plant are installed, we do undergo operations and maintenance (O&M) to function properly and meet energy production targets over the lifecycle of the solar system and extend its life. Conducting regular O&M ensures optimal performance of photovoltaic (PV) systems while minimizing the risks of soiling, micro-cracking, internal
corrosion, and other problems.

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