Technical Information
Trident Power is committed to providing reliable, efficient, and high-quality hydropower solutions. We believe that technical information is essential for our clients to understand the engineering design and technology behind our projects. Here, we provide you with technical information for three of our power projects: Trident Power JB, Trident Power GR, and the Miscellaneous Auxiliary Mechanical System.
Trident Power JB
Three axial flow reaction Kaplan turbines with a flow rate of 56.64 m3/sec and a capacity of 1.56 MW each.
The centerline of the turbine is placed at a distance of -4 m from the minimum tail water level for all turbines.
All mechanical equipment of the power plant and auxiliary systems have been designed with proven feasibility and emphasis on reliability, easy operation, maintenance, dismantling, and assembly of parts.
All possible parameters have been considered to minimize corrosion and sand abrasion on underwater turbine parts.
Trident Power JB is a hydropower project that operates on the principle of axial flow reaction. It features three Kaplan turbines with a flow rate of 56.64 m3/sec and a capacity of 1.56 MW each. All mechanical equipment, including different auxiliary systems, and their operating mechanisms have been designed at the feasibility level of proven design. Emphasis has been laid on reliability, easy operation and maintenance, and procedure for dismantling and assembly of parts of the machine. All possible parameters have been taken into account to minimize corrosion and sand abrasion on underwater parts of a turbine. The setting of the turbine center line is -4 m from the minimum tail water level for all turbines.
With three Kaplan turbines of 1.56 MW each, the Trident Power JB is designed for reliable power generation, providing a consistent and stable source of energy to meet your needs.
The mechanical equipment and auxiliaries systems of the Trident Power JB are designed with ease of operation and maintenance in mind, ensuring that the power plant runs smoothly and efficiently.
All possible parameters have been taken into account to minimize corrosion and sand abrasion on underwater parts of the turbine. This ensures a longer lifespan for the equipment and reduces maintenance costs.
The Trident Power JB is designed at the feasibility level of proven design, ensuring that you get a power plant that has been tried and tested, with a track record of reliability and efficiency.
Trident Power GR
All hydro mechanical equipment has been designed to operate under the worst conditions regarding water quality, with high-quality materials and paint used to protect sealings, bearings, filters, and cooling systems.
With four Kaplan turbines of 1.95 MW each, the Trident Power GR is designed for reliable power generation, providing a consistent and stable source of energy to meet your needs.
The Trident Power GR has a large flow rate of 250 m3/sec, making it ideal for power generation in areas with high water flow rates.
The Trident Power GR is designed at the feasibility level of proven design, ensuring that you get a power plant that has been tried and tested, with a track record of reliability and efficiency.
Four axial flow reaction Kaplan turbines with a flow rate of 250 m3/sec and a capacity of 1.95 MW each.
All hydro-mechanical equipment has been designed to operate under the worst conditions of water quality, especially during flood periods, where sand and other solid components require high-quality material, paint, and special devices to protect sealings, bearings, filters, and cooling systems.
Trident Power GR
Trident Power GR is another hydropower project that works on the principle of axial flow reaction. It features four Kaplan turbines with a flow rate of 250 m3/sec and a capacity of 1.95 MW each. All hydro-mechanical equipment has been designed to operate under the worst conditions of water quality. This is especially important during flood periods when the content of sand and other solid components in the water requires high-quality material, paint, and special devices to protect sealings, bearings, filters, and cooling systems.
Miscellaneous Auxiliary Mechanical System:
The hydropower station is equipped with all necessary mechanical auxiliary systems required for reliable operation. These include a unit cooling water system, drainage and dewatering system, heating, ventilating, and air-conditioning system, station water services, fire protection system, compressed air system, oil handling system, and workshop equipment.
The auxiliary mechanical systems at the hydropower station are designed to ensure efficient operation of the power plant. Each system is carefully planned and engineered to provide optimal performance, reliability, and safety. The systems work seamlessly together to support the primary functions of the power plant, making it a highly efficient and reliable source of energy.
Miscellaneous Auxiliary Mechanical System
Hydropower Stations require a range of mechanical auxiliary systems to ensure reliable operation. Our Miscellaneous Auxiliary Mechanical System comprises the following systems:
Unit Cooling Water System: This system is designed to cool the various units of the power station, including turbines, generators, and transformers.
Drainage and Dewatering System: This system is responsible for removing excess water from the power station.
Heating, Ventilating, and Air-Conditioning System: This system ensures that the power station remains at an optimal temperature.
Station Water Services: This system provides clean and reliable water for the power station’s various needs.
Fire Protection System: This system is designed to protect the power station in the event of a fire.
Compressed Air System: This system provides compressed air for the power station’s various needs.
Oil Handling System: This system is responsible for handling the oil used in the power station’s equipment.
Workshop Equipment: This system provides the necessary equipment for maintenance and repairs of the power station’s equipment.
The mechanical auxiliaries envisaged for the feasibility-level design of the power station comprise a complete set of systems required for the reliable operation of a modern hydropower station, ensuring that you get a complete solution for your power generation needs.
The mechanical auxiliaries are designed to be reliable and efficient, ensuring that they contribute to the overall performance of the power plant and do not cause any interruptions or downtime.
The power plant is equipped with a fire protection system, ensuring that the equipment and personnel are safe and secure in the event of a fire.
The mechanical auxiliaries are designed to be versatile and can be customized to meet the specific needs of your power generation project, ensuring that you get a solution that is tailored to your requirements.