MARINE EDGE MHS1000
marine hybrid propulsion system
The MARINE EDGE MHS1000 marine hybrid propulsion system is a next-generation regenerative technology architecture.
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It is comprised of the following products:
â–ª Permanent magnet electric machine with motor and generator function
â–ª Super-Capacitor based Energy Reservoir
â–ª Electric AC-DC and DC-DC inverters to control the Generator-Motor
â–ª Engine Load Management Computer
â–ª Torque Meters on Shaft line
â–ª Fuel-Flow Meters
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Sailing Mode – The Regenerative Hybrid Propulsion System enables any vessel with a traditional diesel engine, to sail in very efficient stable load conditions even in wavy and high seas.
Installed in the engine room and being connected to the drivetrain, the motor-generator operates as a generator and collects energy when loads are low (trough phase) and saves it in the Super-Caps bank.
When the load is high (peak side) it operates as an electric motor, introducing that energy back in to assist the main diesel engine. In Sailing Mode the main diesel engine’s fuel consumption is significantly reduced.
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Maneuvering Mode - This is a Booster option which adds electric motor power to the diesel engine power output,
during in-port maneuvers or when accelerating the vessel, to improve maneuverability and reduce emissions and loads on the main diesel engine.
In this mode the electric motor power is received from a diesel generator or from a pre-charged battery module.
MHS 1000
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Less Fuel Burnt
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Lower Emissions
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Enhanced Maneuverability
Electrical System Integration :
Hybrid Propulsion and Energy Management
Design and implementation of advanced hybrid energy management systems (diesel electric), tailored for either propulsion systems, security platforms, special mission vehicles, or any type of operational platforms. Hybrid solutions engineered to optimize performance by intelligently integrating power sources, delivering energy savings, quiet operation, and quicker response, allowing critical platforms to operate effectively with maximum tactical advantage.
Custom Electric Dynamometers with Remote Load Management
Design and implementation of electric dynamometers, adapted to specific testing requirements.
Remotely managed variable load regimes that can be precisely monitored and adjusted, and provide an accurate and adaptable testing environment, ensuring the highest standards of performance and reliability for a variety of applications.
