In order to solve the pain points such as high fuel consumption of diesel generators, untimely load response, and weak power grid adjustment ability, Gofront combines rail transit hybrid technology to develop a smart power station with diesel generatorsandenergystorage as the core, and uses microgrid technology to realize grid-connected operation of photovoltaic,utility and other energy systematically. It provides energy saving, high efficiency and low carbon distributed power supply for users in different scenarios.
The product consists of two main components: one includes PCS,EMS control system,high pressure tank and battery pack.
PCS:The key device enabling bidirectional conversion between the battery’s DC power and AC loads.
EMS control system:The energy management brain of the entire power station, enabling intelligent scheduling and optimized control.
High pressure tank:Contains high-voltage distribution and protection circuits, responsible for battery pack charge/discharge management, high-voltage safety isolation, and circuit protection.
Battery pack: The electrochemical energy storage core of the system, storing electrical energy for rapid release when needed.
The other component comprises the cooling system, generator, intelligent monitoring tank, energy storage parallel special controller, and engine.
Cooling System: Ensures the battery pack operates within its optimal temperature range, effectively extending battery life and safeguarding system safety.
Engine: The primary power source, converting chemical energy from fuel (diesel) into mechanical energy
Generator: Interlinked with the engine, converting mechanical energy into electrical energy
Intelligent monitoring tank:tores fuel and integrates intelligent sensors to monitor fuel level, temperature, and other conditions in real time, ensuring safe and controllable fuel supply.
Energy storage parallel special controller:Supports parallel operation of multiple power stations of the same model, enabling power expansion and load balancing to meet increased electricity demands.
