Prime power

For this primary energy sector, we offer a complete range of control solutions adapted to various needs and contexts. Thanks to our expertise and extensive product range, we can offer generator control solutions to satisfy the most varied and demanding civil engineering requirements. Our objective is to provide reliable and efficient systems, adapted to each context of use, to guarantee a stable and continuous supply of quality power.

Hybrid

Power Plant Applications Combining Thermal, Renewable Energies, and Storage

Discover applications covered by our innovative solutions for optimizing energy management in your power plants. Our state-of-the-art controllers seamlessly integrate thermal and renewable energies with advanced storage systems. With our technology, enjoy reliable, sustainable, and cost-effective energy production. Whether it's to maximize energy efficiency, reduce operating costs, or minimize your carbon footprint, our products are designed to meet the industry's most demanding needs. Choose innovation and performance for a sustainable energy future.

Off grid hybrid application (generator, renewable energy)

In this application, one or more generators are combined with a photovoltaic system in island mode. This hybrid system uses solar energy to generate electricity, complemented by generators to ensure a continuous power supply. In island mode, the system operates independently of the main electrical grid. The solar energy collected is used first, while the generators provide additional backup when needed. This configuration offers a resilient and ecological energy solution, particularly suited to isolated sites.

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Off grid complex hybrid power plant (generator, BESS, renewable)

In this application, one or more generators are combined with a photovoltaic system and battery storage in island mode. This hybrid system uses solar energy to generate electricity, supplemented by generators and batteries to ensure continuous power supply.<br>In island mode, the system operates autonomously, independently of the main electrical grid. Collected solar energy is used first, while generators provide additional support when needed. Storage batteries conserve excess energy for later use, ensuring a more stable and reliable power supply.<br>This configuration offers a resilient and flexible energy solution, particularly suited to isolated sites or installations where power reliability is crucial. It maximizes the use of renewable energies while ensuring continuity of service, even in case of adverse weather conditions or high energy demand.

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Island

Thermal power plant applications in mode island

Discover the applications covered by our specialized solutions for island thermal power plants, where generators operate autonomously without connection to the main grid. Our state-of-the-art controller guarantees optimal generator management, ensuring continuous, reliable energy production. Ideal for isolated sites or environments where access to the main grid is limited, our technologies deliver maximum efficiency and long-lasting performance. Whether for industrial facilities, remote communities, ships or critical infrastructure, our products are designed to meet the most demanding needs for autonomous energy. Embrace our innovation for optimal energy autonomy.

Single genset in island mode

In this application, the energy source comes from a single thermal generator, designed to operate autonomously without grid connection. If required, this generator can be equipped with a motorized circuit breaker, enabling automated protection and management of the electrical circuits. Thanks to this configuration, the thermal generator can reliably and continuously provide all the power required by the load, guaranteeing an independent and secure energy solution, ideal for isolated environments or temporary installations where access to the electrical grid is limited or non-existent.

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Multiple gensets paralleled in island mode

In this application, the energy source is a power plant consisting of multiple generators, up to 32 units, which can be paralleled to each other. This modular configuration provides greater flexibility and redundancy, guaranteeing a stable, continuous power supply. Operating autonomously without connection to a mains supply, these generators work together to supply the load on their own. This solution is ideal for large-scale or critical installations where energy reliability is paramount, enabling optimized management of energy production and distribution according to specific site requirements.

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Multiple gensets paralleled with tie-breaker

In this application, the energy source is a power plant composed of multiple thermal generators, up to 32 units, which can be paralleled to each other and operate without grid connection. This power plant is fitted with one or more tie-breakers on the busbar, offering flexible and secure power supply management. Tie-breakers can be used to isolate different sections of the busbar. In case of a problem in one section, these breakers allow the affected area to be unparalleled, ensuring that the other sections remain fully operational and continue to provide a reliable power supply. This configuration is particularly well-suited to installations requiring complete energy autonomy, guaranteeing optimum stability and reliability of the power supply thanks to intelligent, secure management of the thermal generators.

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Renewable & Storage

Power Plant Applications Based on Renewable Energies and Storage

Explore applications covered by our advanced solutions for green power plants. Our sophisticated controllers seamlessly integrate renewable energies, such as solar and wind, with cutting-edge storage systems. Benefit from clean, reliable, and cost-effective energy production while contributing to a more sustainable future. Our products are designed to maximize energy efficiency, reduce operational costs, and minimize the carbon footprint. Embrace innovation for environmentally friendly energy management.

On grid storage application

In this application, the energy source is a storage battery system associated with a main power grid. This battery system plays a crucial role by storing energy when demand is low or when tariffs are low, and releasing it when demand is high or when tariffs are higher, thus ensuring a continuous and stable power supply. Combining with the main power grid maximizes energy efficiency by using stored energy to compensate for grid fluctuations, thus reducing consumption peaks and improving overall system stability. In addition, this strategy optimizes costs by taking advantage of variations in electricity tariffs, offering a flexible and reliable solution for installations where optimal energy management is essential, contributing to lower energy costs and better integration of renewable energy sources.

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On grid renewable application

In this application, the energy source is a photovoltaic and/or wind power system associated with a main power grid. This system uses solar and/or wind energy to generate electricity in a sustainable and environmentally-friendly way, and the combination with the main power grid maximizes energy efficiency by integrating renewable energies into the power supply. When solar or wind power generation is sufficient, it can be used directly to supply loads or fed into the grid. This configuration offers an ecological and economical solution, reducing dependence on traditional energy sources and contributing to a reduction in carbon emissions. It is particularly well-suited to installations where the durability and reliability of the power supply are essential, ensuring a seamless transition between different energy sources according to conditions and energy requirements.

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On grid hydro turbine application

In this application, the power source is a hydraulic turbine associated with a main electrical grid. This system uses the energy of moving water to generate electricity in a sustainable and efficient way. The combination with the main power grid maximizes energy efficiency by integrating hydraulic energy into the power supply. When sufficient hydraulic energy is produced, it can be used directly to supply loads or fed into the grid. This configuration offers an ecological and reliable solution, reducing dependence on fossil fuels and contributing to a reduction in carbon emissions. It is particularly well-suited to installations where sustainability and constancy of power supply are essential, ensuring a seamless transition between different energy sources according to energy requirements and hydrological conditions.

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Off grid BESS and photovoltaic/wind turbine application

In this application, the energy source is a photovoltaic system combined with storage batteries in island mode. This system uses solar energy to generate electricity, which is then stored in the batteries for later use. In island mode, the system operates autonomously, independently of the main electrical grid. Solar energy captured during the day is stored in the batteries, providing continuous power even when the sun is not shining, as during the night or on cloudy days. This configuration can offer a degree of energy autonomy, particularly suited to isolated sites or installations where power reliability is important. However, it's important to note that autonomy is dependent on the duration and intensity of sunlight. In the event of prolonged periods without sunlight, battery capacity can be drained, limiting the power supply. Nevertheless, this solution offers clean, renewable energy, maximizing the use of solar power and reducing dependence on traditional energy sources, while contributing to a reduction in carbon emissions.

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