On July 28, 2019, a seminar on the initiation and implementation of the project "Reliability, Durability and Manufacturing Engineering Technology of Proton Exchange Membrane Fuel Cell Reactor" was held in Shanghai.
Chen Shuoyi, Director of the High-tech Research and Development Center of the Ministry of Science and Technology, Lin Hai, Deputy Director of Social Development Department of Shanghai Science and Technology Commission, Chen Tianchen, Assistant Investigator of the High-tech Department, Professor Yu Zhuoping, Assistant President of Tongji University, Liu Junfang, Director of Automobile College, Secretary Cao Jing, Director of the New Energy Automobile Engineering Center, Wei Xuezhe, etc. Professor Jiang Peixue, Professor Pan Mu, Professor Jiang Lijun, Professor Zhu Xinjian, Professor Yang Hui, Director of Fuel Cell Complex Power Supply Institute, Professor Zhang Junliang, Professor Peng Linfa and Professor He Ping, Professor Liu Minghua, Finance Expert, Project Leader, Professor Ming Ping Wen, and Seventeen Lists under the Project More than 60 scientific research representatives and related personnel attended the meeting.
Yu Zhuoping, assistant president of Tongji University, warmly welcomed the arrival of Chen Shuoyi, Director of the High-tech Research and Development Center of the Ministry of Science and Technology, Lin Hai, Director of the Shanghai Science and Technology Commission, experts and participants, and expressed heartfelt thanks to the leaders and experts who supported the project. Yu Zhuoping said that he would rely on Tongji University to provide policy guidance, scientific and technological services and financial management to ensure the smooth development of project research.
Director Chen Shuoyi of the High-tech Research and Development Center of the Ministry of Science and Technology introduced the task layout and project establishment of the project, and put forward specific requirements for strengthening standardized management, integrated implementation, goal and problem orientation, honesty and credit construction, and fund management in the implementation of the project. He also hoped that the implementation of the project could provide China with a better understanding of the project. Advances in key technologies of fuel cells have contributed.
The cost, reliability and life of fuel cell stacks have become bottlenecks in the industrialization of fuel cells. This project takes the engineering manufacturing technology of long-life proton exchange membrane fuel cell stacks as the development requirement, and studies the mathematical relationship between volt-ampere, distribution, hydrogen permeability and physical and chemical parameters of components, materials and attenuation suppression. Grasp the theoretical rules of strength, sealing, insulation and structure design, material selection, develop the technology of performance improvement and reliability, durability guarantee, precision coating and high-throughput core components manufacturing technology, stack consistency guarantee and fast on-line technology, improve the engineering level of stack products and processes in China, and promote hydrogen. Energy technology development and industrialization. Professor Ming Ping-wen, the project leader, made a general report on the project background, research objectives and technical route, research content and subject decomposition, assessment indicators and expected results, implementation and progress of stack production line, schedule arrangement, organization and management, risk analysis and countermeasures, and five project leaders respectively carried out the project. The case was reported in detail.
The experts attended the meeting carefully listened to and fully questioned and discussed the relevant contents of the implementation plan, and unanimously demonstrated the implementation plan of the project. They believed that the overall and stage objectives of the project were clear, the subject set was reasonable, the research content had a strong integrity and systematicness, and the research methods and technical routes were detailed and feasible. Specific assessment indicators, reasonable research schedule, perfect organization and management mechanism and wind control measures can ensure the smooth progress of the project. At the same time, it is proposed that the complexity of the project approval procedure should be fully considered, the construction of stack production line should be actively promoted, the scientific and technological innovation should be strengthened, and the requirements for the successful completion of various assessment indicators should be guaranteed.
In order to standardize the management of scientific research funds and ensure the smooth development and acceptance of the project, the Ministry of Science and Technology recommended Director Liu Minghua, Vice-Director of Zhongtian Hengxin (Beijing) International Accounting Firm Co., Ltd., to make a report on the "Fund Management of National Key R&D Programs". This paper introduces in detail the fund management measures in the process of project implementation from the aspects of project implementation reference policies and regulations, responsibility and obligation of project undertaking units, approval procedures for adjustment items, and management methods of classified funds. It also requires the responsible persons to strictly manage the project and project funds in accordance with the relevant provisions of central financial fund management.
Finally, the project leader, Professor Ming Ping-wen, made a concluding statement. The meeting successfully completed the scheduled agenda and achieved the expected goals. The project of "Reliability, Durability and Manufacturing Engineering Technology of Proton Exchange Membrane Fuel Cell Reactor" which is the key project of the National Key R&D Program "Renewable Energy and Hydrogen Energy Technology" has formally entered the stage of implementation. The project team will be based on the project research objectives, complete the assessment indicators, condense the research results, highlight the technical highlights, and provide support for the hydrogen energy strategy.