The Development and Outlook of Green Hydrogen

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2星价￥154.0 定价￥280.0

作者：全球能源互联网发展合作组织

出版社：中国电力出版社

本类榜单：工业技术

分类：工业技术 > 能源与动力工程

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图文详情

ISBN：9787519865160
装帧：一般胶版纸
册数：暂无
重量：暂无
开本：16开
页数：202
出版时间：2022-04-10
条形码：9787519865160 ; 978-7-5198-6516-0

本书特色

报告对绿氢产业链各环节进行了较为全面的分析，对绿氢需求进行了科学预测，结合清洁能源开发评估成果对中国绿氢潜力和成本进行了全面评估。报告构建了电—氢综合配置优化模型，对未来绿氢的大范围、大规模配置进行了分析。报告兼顾科普性、通识性以及专业性，满足不同读者的信息获取需求。

内容简介

　　Hydrogen，as a clean，zero-carbon，efficient and sustainable energy carrier，provides an alternative solution for deepening the clean energy transition and fully achieving "Two Replacements". At present，most hydrogen is produced by fossil fuels，and direct use of hydrogen as energy cannot achieve the goal of de-carbonization. Renewable energy such as wind energy and solar energy is used to produce green hydrogen to achieve the de-carbonization of the whole process from supply to consumption，so that the energy de-carbonization can be achieved by hydrogen energy.Green hydrogen comes from renewable energy. Green hydrogen is an important zero-carbonsolution in the final energy consumption fields where it is difficult to directly use electricity. It becomes the link between renewable energy such as wind energy and solar energy and final energy consumption，to achieve indirect electricity replacement or even "non-energy application" of electricity，thus promoting comprehensive electrification on the energy consumption side. Compared with electricity，hydrogen is easier to be stored on a large scale.The mutual conversion of electricity and hydrogen will provide important long-term flexible adjustment capabilities for new power systems with renewable energy as the mainstay，to promote the development and consumption of renewable energy，thus facilitating clean replacement of energy supply. The close connection between electricity and hydrogen will become an important feature of the new energy system in the carbon neutrality scenario，and an interconnected modern energy network will be built in combination with various energy forms such as biomass energy，geothermal energy，and natural gas. Hydrogen energy is expected to become one of the important roles in the third energy transition，and it will be used with electricity to achieve the clean，low-carbon and sustainable development of the future energy system.In this report，from the perspectives of demand，production，and allocation and in combination with different links in the hydrogen industry chain，the technical statuses of hydrogen application，hydrogen production，hydrogen storage，and hydrogen transportation are sorted out，the cost-effectiveness of different technical routes is compared，and the R&D directions of key technologies in the future are proposed. Based on the analysis of carbon neutrality energy scenarios and technology development trends，the scale of hydrogen energy demand in the future is judged. Based on the assessment results of clean energy resources，the potential and cost-effectiveness of green hydrogen production are studied. On this basis，an overall optimization analysis model for the electricity-hydrogen zero-carbon energy system is built，and the long-distance and large-scale hydrogen energy allocation scheme in China is proposed with the optimization goal of minimizing the energy consumption cost of the whole system in this report.In this report，the relevant research results of the Global Energy Interconnection Development and Cooperation Organization （GEIDCO） on hydrogen energy are collected，aiming at enabling readers to master the technical statuses and development trends of the application，production，storage，and transportation of green hydrogen industry，and providing a reference for policy makers to fully understand the development prospects of hydrogen energy，formulate relevant policies and plan development paths. However，there might be inadequacies as data and time for preparation are limited.

PREFACE
SUMMARY
1 Current Situation and Trend of Hydrogen Energy Development
1．1 Introduction to Hydrogen
1．2 Development Status
1．3 Green Hydrogen and Energy Transition
1．3．1 Challenges of Energy Transition
1．3．2 Green Hydrogen and Energy Transition
1．3．3 Green Hydrogen and New Power System
1．4 Reporting Ideas and Main Contents

2 Key Technologies for Green Hydrogen
2．1 Hydrogen Production Technology
2．1．1 Current Technical Status
2．1．2 Technology Comparison
2．1．3 R&D Direction
2．1．4 Technical and Economic Trends
2．2 Storage and Transportation Technology
2．2．1 Current Technical Status
2．2．2 Technology Comparison
2．2．3 R&D Direction
2．2．4 Technical and Economic Trends
2．3 Hydrogen Utilization Technology
2．3．1 Current Technical Status
2．3．2 Technology Comparison
2．3．3 R&D Direction
2．3．4 Technical and Economic Trends
2．4 Summary

3 Green Hydrogen Demand Projection and Development Potential
3．1 Demand Forecast
3，1．1 Economic and Social Development Expectation
3．1．2 Prospect of Energy Scenarios
3．1．3 Projection Models and Methods
3．1．4 Analysis of Main Hydrogen Fields
3．1．5 Demand Projection Results
3．1．6 Scenario of China Energy Interconnection
3．2 Development Potential and Cost
3．2．1 Cost Projection of New Energy Power Generation
3．2．2 Assessment of New Energy Resources
3．2．3 Development Potential and Cost Optimization Model
3．2．4 Assessment Results
3．3 Summary

4 Electricity-Hydrogen Coordinated Zero-carbon Energy System
4．1 Necessity of Electricity-Hydrogen Coordinated Allocation
4．2 OptimaI Allocation Mode
4．2．1 Model and Algorithm
4．2．2 Analysis of Typical Scenarios
4．2．3 Comparison of Different Scenarios
4．3 Study on Allocation of Green Hydrogen in China
4．3．1 Control Scenario
4．3．2 Green Hydrogen Allocation Research
4．3．3 Electricity-hydrogen Coordinated Zero-carbon Energy System
4．4 Comprehensive Values
4．4．1 Value of Flexibility
4．4．2 Guarantee Value of Electricity Supply
4．4．3 Value of System Security
4．4．4 Value of Emission Reduction
4，5 Hydrogen Power Generation and Green Energy Center
4．6 Summary

5 Conclusion and Prospect
5．1 Key Technology Prospects
5．2 Green Hydrogen Demand Prospects
5．3 Green Hydrogen Industry Prospects
5．3．1 Policy Planning
5．3．2 Industry Chain Development

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作者简介

全球能源互联网发展合作组织(简称合作组织)，是由致力于推动世界能源可持续发展的相关企业、组织、机构和个人等自愿组成的国际组织。注册地设在北京。合作组织的宗旨是推动构建全球能源互联网，以清洁和绿色方式满足全球电力需求，推动实现联合国“人人享有可持续能源”和应对气候变化目标，服务人类社会可持续发展。合作组织将积极推广全球能源互联网理念，组织制定全球能源互联网发展规划，建立技术标准体系，开展联合技术创新、重大问题研究和国际交流合作，推动工程项目实施，提供咨询服务，引领全球能源互联网发展。

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