Portable energy
Solid-state Hydrogen Energy System
The home power supply system based on solid-state hydrogen storage technology uses efficient hydrogen fuel cells as the main power supply source to ensure sufficient power output while achieving zero-emission operation. The hydrogen fuel cell technology used in the hydrogen power system uses hydrogen as fuel and water as a byproduct.
It has the following advantages:
➢ Environmental protection: Hydrogen power system will not produce emissions, no pollution to the environment.
➢ High efficiency: hydrogen fuel cells have high energy conversion efficiency.
➢ Renewable: Hydrogen can be produced by electrolysis of water from renewable energy sources such as solar energy, and is a renewable energy
The source.
Advantage
The use of solid low pressure hydrogen storage technology, compared with the traditional high pressure gas hydrogen storage higher safety, hydrogen storage capacity, more adaptable.
Based on hydrogen fuel cell drive, with high efficiency, no pollution, zero carbon emissions and other advantages
The power system adopts compact structure design to save space. The system uses the replacement of solid-state hydrogen storage bottles, the replenishment time is short, which greatly improves the continuous operation ability of the system.
About Hydrogen Battery
The power system developed by Jiayi New Energy Technology Co., Ltd. is innovatively integrated in design and engineering
Low pressure solid state hydrogen storage technology and proton exchange membrane fuel cell (PEMFC) technology are discussed. Solid state hydrogen storage technology enables us to store hydrogen fuel safely and efficiently, while stable operation of the power system is a thermal management challenge due to its endothermic properties during dehydrogenation. However, this property actually provides a unique solution for the thermal design of the power system: by combining the heat absorption process of the solid hydrogen storage material with the heat dissipation requirements of the fuel cell operation, a more efficient thermal management system can be created.
This innovative thermal management scheme not only improves the efficiency of the fuel cell, but also reduces the overall energy of the system
Quantity consumption. Through a specially designed heat exchange tube, the heat generated by the fuel cell is effectively transferred to the hydrogen storage material, and hydrogen can be released stably even at low temperatures, so that the two systems can work together. This recovery and reuse of thermal energy significantly improves the energy efficiency of the entire system.
Furthermore, the selection and optimization of solid hydrogen storage materials are also studied. High performance solid hydrogen store material is selected. It not only has good hydrogen charging and discharging characteristics, but also can work effectively at low pressure and temperature, which reduces the complexity and operating costs of the system.
In the case of fuel cells, a membrane electrode assembly (MEA) with better performance has been selected, resulting in higher electrochemical activity and longer service life. At the same time, by optimizing the design of the battery stack, higher energy density and better durability are achieved.
Through the integration and innovation of these technologies, our power systems have not only achieved significant improvements in performance, greatly improving system efficiency and operating stability in low temperature environments, but also show great potential in environmental friendliness and economic benefits.
Technical Sheet
Hydrogen Battery Includes
- Hydrogen Fuel Cell
- Cooling System
- Hydrogen Intelligent Management System
- Solid Hydrogen Store Tank
- Inverter
- Energy Recovery System
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