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Why do we need to do energy audits? In order to determine the actual, real time consumption of power being used.
This is measured over a minimum period of 2 weeks and a report is issued based on the data gathered. We also perform a comprehensive site visit to determine a suitable location to house the system, check the roof integrity and existing electrical infrastructure.
This information is used to create the Basic Proposal and Preliminary Design for the Solar and Battery Storage System.
Expert evaluations to improve your system’s energy consumption, reducing costs and environmental impact.
Ensure optimal system performance with accurately sized solar and battery storage solutions, tailored to meet your specific energy needs.
From Engineering Design, Procurement, site establishment and Construction we offer a
turnkey solution to clients.
Providing, sustainable, clean power on demand and reducing
electricity costs, reducing reliance on a diesel genset, reducing Green house gas emissions, and improving ESG ratings.
Thermal imaging has become indispensable in the maintenance and operation of photovoltaic (PV) plants. With a surge in installations driven by high demand, the market has seen a mix of highly trained professionals and inadequately qualified contractors, leading to construction errors and suboptimal performance. Thermography emerges as a key tool for quality assurance, warranty claims, and avoiding customer yield losses by identifying and rectifying issues such as mismatched modules, faulty wiring, or shading that could compromise yield. Our thermal camera has the ability to detect hotspots, module defects, and electrical issues in the PV plant and on the mechanical components for the entire system.
Thermal imaging not only facilitates early detection of faults but also serves as a preventive measure against potential fire hazards, especially with the increasing power output of modern electrical components. By identifying thermal irregularities indicative of faulty cells, bypass diodes, or electrical connecti ns, thermography aid in maintaining operational safety and securing insurance coverage for damages post storms. Moreover, the non contact nature of thermographic inspections enhances personnel safety, particularly in live PV systems with high voltages, ensuring compliance with safety regulations and industry standards.
Solar power and battery storage plants are essential for consistently generating electricity over their lifespan. Implementing Reliability Centered Maintenance (RCM) strategies ensures proactive maintenance scheduling, reducing the risk of unexpected failures and maximizing energy production. By identifying critical components, assessing failure risks, and developing maintenance plans accordingly, RCM minimizes unplanned downtime, lowers repair costs, and enhances the cost-effectiveness of renewable energy projects.
In addition to cost reduction, RCM plays a vital role in ensuring safety and minimizing environmental impact. By focusing on critical component reliability, RCM helps prevent major failures that could lead to accidents or environmental damage, contributing to personnel safety and environmental protection. Furthermore, RCM aids in asset management by extending the operational lifespan of renewable energy systems. By promptly addressing potential failure modes, optimizing maintenance activities, and enhancing overall reliability, RCM ensures the long-term viability and performance of renewable energy installations, making them sound long- term investments.
