MyEnergy Commercial

Projects

Installation in Bedworth



This initiative is designed to deliver a sustainable and dependable energy solution by implementing a solar power system that includes twelve Longi 500W solar panels, a Sunsynk 5kW inverter, and a 4.8kWh battery storage system.

The Longi 500W panels, celebrated for their exceptional efficiency and resilience, will be strategically oriented to optimize solar energy absorption throughout the day. These panels will capture sunlight and convert it into electricity, aiding in the reduction of carbon emissions and minimizing the overall environmental footprint.

The Sunsynk 5kW inverter will be integral in transforming the DC power generated by the solar panels into usable AC power for the electrical system. It will effectively manage and distribute electricity to cater to the fluctuating energy requirements of connected appliances and devices.

Furthermore, the 9.6kWh battery storage system will retain surplus energy generated during daylight hours for later use, ensuring an uninterrupted power supply even during times of limited or no sunlight. This capability is especially advantageous during power outages or when energy demand surpasses the immediate solar generation capacity.

Installation in Sheffield

This project encompasses the installation of a solar photovoltaic (PV) system, featuring Longi 450W solar panels, two Solax 5kW Hybrid inverters, and an 11.6kWh battery storage solution. A key challenge of this installation lies in the mounting system on 40mm thick Yorkshire stone. To address this complexity, the project’s designer collaborated with manufacturers to create a solution that satisfies the Microgeneration Certification Scheme (MCS) standards.

The Longi 450W solar panels are celebrated for their exceptional efficiency and performance, ensuring optimal electricity generation from available sunlight. These panels will be strategically arranged to maximize solar energy capture throughout the day, thereby decreasing dependence on traditional power sources and reducing carbon emissions.

The Solax 5kW Hybrid inverters are essential for converting the direct current (DC) power produced by the solar panels into usable alternating current (AC) electricity for the electrical system. Furthermore, the hybrid capability allows the system to effortlessly transition between solar power, battery storage, and grid power, optimizing energy usage and increasing self-consumption.

The battery storage system, with a capacity of 11.6kWh, will retain surplus energy generated by the solar panels during the day for future use. This feature enables the system to supply power during times of low or absent solar generation, such as at night or on overcast days. It also bolsters energy self-sufficiency and provides backup power in the event of grid outages.

The complexity of the installation stems from the requirement to mount the system onto 40mm thick Yorkshire stone. While Yorkshire stone is both durable and visually striking, its thickness presents challenges for standard mounting systems. To adhere to MCS standards and guarantee a secure and reliable installation, the project designer collaborated closely with manufacturers.

To address these challenges, the designer engaged with manufacturers of mounting systems to create a custom solution specifically designed for the Yorkshire stone surface. This process included engineering and testing various mounting brackets, extensions, and customized fixtures that would securely attach to the stone while ensuring the necessary structural stability. The solution was meticulously crafted to align with MCS standards, securing the installation's durability, safety, and longevity. Throughout this iterative design process, the designer and manufacturers considered factors such as load distribution, weather resistance, and aesthetic harmony with the stone surface, resulting in a reliable and visually pleasing mounting system that enabled the successful integration of the solar PV system onto the Yorkshire stone.

Upon completion, the solar PV system will provide clean and renewable energy, helping to lower electricity costs and reduce carbon emissions. The Solax hybrid inverters and battery storage system will facilitate efficient energy management, enabling users to optimize self-consumption and lessen dependence on the grid. A user-friendly interface will allow for monitoring and control of the system's performance, providing real-time insights into energy production, consumption, and battery storage levels.

In summary, this project exemplifies the productive collaboration between the designer and manufacturers in overcoming the challenges of installing a solar PV system on 40mm thick Yorkshire stone while complying with MCS standards. The outcome is a reliable, efficient, and aesthetically pleasing solar energy solution that fosters sustainability and energy independence..

Installation in Harrogate

Solar PV Installation featuring a Solax 5kW Hybrid Inverter, 11.6kWh Battery Storage, and Jinko 420W All Black Panels.

This project encompasses the setup of a solar photovoltaic (PV) system that includes a 5kW Solax Hybrid inverter, 11.6kWh battery storage, and 14 Jinko 420W all-black solar panels. To tackle the challenge of installing the system on a flat roof without puncturing the roof’s felt, we consulted a structural engineer who approved and endorsed the use of a Renusol flat roof mounting system with plastic consoles.

The Solax 5kW Hybrid inverter is pivotal in transforming the direct current (DC) electricity produced by the solar panels into usable alternating current (AC) electricity for the home’s electrical system. Its hybrid capabilities facilitate smooth transitions between solar power, battery storage, and grid power, thereby optimizing energy consumption and enhancing self-consumption.

The battery storage system, boasting a capacity of 11.6kWh, allows surplus solar energy generated throughout the day to be stored for future use. This feature significantly improves energy independence, offers backup power during grid outages, and allows for more efficient use of solar energy during times when solar generation is minimal or absent.

The selection of 14 Jinko 420W all-black solar panels is driven by their outstanding efficiency and modern aesthetic, seamlessly integrating with the roof's design. These panels will be strategically arranged on the flat roof to optimize solar energy capture throughout the day, guaranteeing maximum electricity generation while minimizing environmental impact.

A key challenge in this project was the need to avoid puncturing the roof's felt during installation. To address this concern and ensure a secure, non-intrusive mounting system, we consulted a structural engineer. The engineer evaluated the roof's structural integrity and endorsed the use of a Renusol flat roof mounting system, which is specifically engineered for flat roofs and utilizes plastic consoles.

The Renusol flat roof mounting system featuring plastic consoles offers a dependable, non-penetrating solution for affixing the solar panels to the roof. This system is designed to evenly distribute the weight of the panels, preventing any damage to the roof’s felt. Through close collaboration with the structural engineer, the installation team ensured that the mounting system adhered to all required safety and stability protocols.

The structural engineer’s approval provided peace of mind, affirming that the installation met industry standards and best practices. It verified that the mounting system would maintain the roof's integrity and avoid potential leaks or damage.

Once deployed, the solar PV system will produce clean, renewable energy, significantly lowering electricity expenses and carbon emissions. The Solax Hybrid inverter and battery storage system will facilitate efficient energy management, empowering users to maximize self-consumption and lessen their reliance on the grid.

Monitoring and control capabilities will enable users to oversee energy production, consumption, and battery storage levels via an intuitive interface. This feature offers real-time insights into energy usage patterns, allowing users to make informed choices regarding their energy consumption.

In conclusion, this project showcases the implementation of a Solax 5kW Hybrid inverter, an 11.6kWh battery storage system, and Jinko 420W all-black panels for the solar PV installation. It also exemplifies the collaboration with a structural engineer to secure approval for a Renusol flat roof mounting system with plastic consoles, guaranteeing a stable, non-penetrating installation that adheres to industry standards while safeguarding the roof's integrity. The final outcome is a reliable and efficient solar energy solution that champions sustainability and reduces electricity costs.

Installation in Birmingham

Solar PV Installation featuring Longi 500W Panels, Sunsynk 5kW Hybrid Inverter, and a 4.8kWh Pylontech Battery.

This project encompasses the installation of a solar photovoltaic (PV) system consisting of twelve Longi 500W solar panels, a Sunsynk 5kW hybrid inverter, and a 4.8kWh Pylontech battery. The primary objective of this installation is to establish a sustainable and dependable energy solution for the specified location.

The Longi 500W solar panels have been chosen for their exceptional efficiency and robust design. These panels will be positioned strategically to optimize sunlight capture and transform it into electricity. Their high efficiency guarantees maximum energy production, enhancing the overall output of the system and decreasing dependence on conventional grid power sources.

At the heart of the system is the Sunsynk 5kW hybrid inverter, which is essential for converting the direct current (DC) electricity generated by the solar panels into usable alternating current (AC) electricity for the electrical system. The hybrid capabilities of the inverter facilitate smooth transitions between solar energy, battery storage, and grid power. This adaptability optimizes energy consumption and encourages self-consumption, allowing the system to meet fluctuating energy demands effectively.

To optimize energy storage and offer backup power, the system is equipped with a 4.8kWh Pylontech battery. This battery will capture surplus energy produced by the solar panels during daylight hours, making it available for later use and ensuring an uninterrupted power supply even in times of low solar output or power outages. This capability promotes energy independence, lessens dependence on the grid, and provides reassurance during electrical disruptions.

During installation, skilled technicians and electricians will securely mount the Longi 500W panels, connect them to the Sunsynk hybrid inverter, and seamlessly integrate the Pylontech battery into the complete system. A commitment to safety standards and industry best practices will be strictly followed to ensure a dependable and efficient setup.

After installation, the solar PV system will generate clean, renewable energy, leading to reduced electricity costs and a smaller carbon footprint. Users can easily monitor and control the system’s performance through an intuitive interface, allowing for real-time tracking of energy production, consumption, and battery storage levels.

In summary, this project aims to harness solar energy by installing Longi 500W panels, a Sunsynk 5kW hybrid inverter, and a 4.8kWh Pylontech battery. The system will deliver sustainable energy, lower electricity expenses, and improve energy independence. By leveraging renewable energy sources, this installation plays a significant role in promoting a greener and more sustainable future.