Responding to the threat of climate change has become one of the core issues of all countries in the world, and the global carbon reduction process is further accelerating. From a global perspective, more than 120 countries and regions in the world have proposed carbon neutrality targets, of which more than 60 countries have pledged to achieve carbon neutrality by 2050, and China has also aimed to hit peak emissions before 2030 and for carbon neutrality by 2060. As a recognized zero-carbon clean energy carrier, hydrogen energy is getting more and more attention, and various countries have introduced various hydrogen energy strategies. The development and application of hydrogen fuel cell plays a key role in promoting the popularization and development of hydrogen energy, and it is also favored by national/local policy and industry development worldwide. According to MarketsandMarkets, “the hydrogen generation market size is projected to reach USD 201 billion by 2025 from an estimated USD 130 billion in 2020, at a CAGR of 9.2% during the forecast period”, and “the global fuel cells market size is projected to reach USD 848 million by 2025 from an estimated value of USD 263 million in 2020, growing at a CAGR of 26.4% during the forecast period”.
China Hydrogen Energy and Fuel Cell Summit 2021 will gather around 120 related experts and executives of hydrogen and fuel cell industry to discuss the current status of hydrogen energy and fuel cell vehicle research and development and the future industrialization development path in the context of the current carbon neutral era. Involved topics will include hydrogen energy and fuel cell market and policy interpretation, key technologies and development of hydrogen production, storage and transportation, refueling; fuel cell and related core technologies and applications, latest R&D process of key components such as catalysts and membrane electrode materials, etc.
Highlights:
Latest Status of the Industry Development and Commercial Application of Hydrogen Energy and Fuel Cell
Technology and Application Comparative Analysis of Different Hydrogen Production Methods
Deep Exploration and Research on Electrolysis
Innovative Development and Application of PEM Materials to Decrease Cost and Increase Efficiency of Hydrogen Production
Critical Role of Catalysts in Water Electrolysis and R&D Process of the Latest Generation of Catalysts
In the Context of Carbon Neutrality, Commercial Development and Operation of Fuel Cell Buses
Construction and Operation Practice of the Hydrogenation Station
Comparison of Different Hydrogen Storage Methods and Transportation Technologies
Panel Discussion: Challenges and Solutions for Energy Transition and Hydrogen Economic Development
Interpretation of Legislation and Development Policies of China Hydrogen Energy and Fuel Cell Industry
R&D and Application of Fuel Cell System
New Hydrogen Tank Empowers Lightweight
Fuel Cell Vehicle Safety Design
Implementation Route of “Electric-Electric” Hybrid Power Technology Combing Hydrogen Fuel Cell and Lithium Cell in the Marine Field
Prospects and Challenges of High-Temperature Fuel Cell Application
Centrifugal Fuel Cell Air Compressors and Application Cases
PEM Fuel Cell Membrane Electrode Assembly (MEA)’s Core Material Requirements and Innovative Research and Development
