The Promotional Materials for Guangdong Meixing Fueneng. Technology Co., Ltd.

Transcription

1 The Promotional Materials for Guangdong Meixing Fueneng Technology Co., Ltd. 1: Company Profile Owing to the project of Research and industrialization of key technologies for highefficiency hydrogen fuel cells based on new hydrogen-rich fuel on-line hydrogen production, the core members of the company have got the funding of the Foshan Science and Technology Innovation Team in Therefore we set up the high-tech company based on hydrogen energy in December The main business of our company include the development and production of the hydrogen-rich fuel, the catalyst for hydrogen generated from hydrogen-rich fuel, the hydrogen production reactor, the methanol fuel cell, the hydrogen fuel cell as well as the intelligent assembly production of the battery testing equipment and the hydrogen fuel cell. 2: Product introduction (1): Hydrogen-rich fuel The use of green biomass fuels, readily available (un)saturated (oxygen) hydrocarbons (or salts) to synthesize the organic hydrogen-rich fuels that promote endothermic the hydrogen production, and the use of inorganic hydride synthesis to promote the exothermic hydrogen production inorganic hydrogen-rich materials, which are mixed with usable composite fuels, and developed a batch production process for fuels. Moreover, the Hydrogen-rich fuels have been granted the USA Patent Protection US B2.

2 Figure 1. The developed liquid hydrogen-rich fuel sample. Figure 2 The flow chart of production process for the mixed hydrogen-rich fuel. Figure 3. The production line of hydrogen-rich fuel.

3 Feature: The hydrogen-rich fuel can be stabilized at a high temperature above 150 C under a condition of without a catalyst, thereby solving the technical problem of hydrogen storage and transportation, which exist in the on-board hydrogen fuel cell system, promoting the refueling mode of hydrogen fuel cell vehicle develop toward "refueling". Since the amount of produced hydrogen is approximately "linear" in relation to the liquid supply, the amount and rate of hydrogen can be controlled by changing the speed of hydrogen-rich fuel injection. When the supply of hydrogen-rich fuel is stopped, the hydrogen production process will also stop. Hydrogen is the only gas product that eliminates the need for a separation unit and greatly simplifies the system structure. The reaction for the hydrogen production is an autothermal reaction. After the reaction starts, there is no need to load an external heat source, reducing the parasitic power of the battery system and improving system efficiency. (2): The non-precious metal nanocatalyst Our company researchers optimized the preparation method of the catalyst by studying the activity factor and structure of the catalyst system, combined with the reduction and dispersion process of the catalyst, and then formulated various parameter standards for the catalyst preparation process. At the same time, we also studied the process parameters of the manufacturing process (such as ball milling, pulping, filtration and baking), enhanced the quality of catalyst product, improved the environmental performance of the product and obtained a reliable catalyst coating and batching process.

4 Figure 4. The ultra-efficient nano-reforming catalyst and catalyst pole piece sample. Figure 5. The flow chart of preparation process for the ultra-efficient nano-reforming catalyst.

5 Figure 6. The production line of the ultra-efficient nano-reforming catalyst. Feature: The non-precious metal nanocatalysts have got rid of the limitation of traditional platinum precious metal catalysts on the commercialization and application of the reforming hydrogen reactions, which has significantly reduced the production cost and laid foundation for the commercial application of on-line hydrogen production and hydrogen fuel cell technology. At the same time, it greatly reduces the hydrogen production temperature (the methanol or methane reforming hydrogen temperature is about 300 C), which reduces the system energy consumption and simplifies the system structure. (3): The online hydrogen generator The company has developed the forth generation of ultra-efficient self-heating reforming hydrogen generator, with the modules like feed and hydrogen supply, catalytic hydrogen production, heating and cooling, integrated human-computer interaction control, safety monitoring and necessary products. The company has applied

6 for The USA patent protection Application No Figure 7. The schematic diagram of the super efficient autothermal reforming hydrogen generator. Figure 8 Schematic diagram of gas-liquid separation device.

7 Figure 9. The panel of the integrated control circuit for the forth generation hydrogen generator. Figure 10.The forth generation online hydrogen generator. Feature: The on-line hydrogen generator solves the problem of hydrogen production and storage in the hydrogen fuel cell power system, transfers hydrogen storage into liquid fuel storage, converts the hydrogen-filled mode of the existing hydrogen fuel cell vehicle into a liquid-filled mode and achieves the replacement of traditional fuel vehicles. The fuel and products are both environmentally friendly materials, the on-line

8 hydrogen generator provides a product recovery module, which can achieve a "zero emission" working state.