Capacity side, according to incomplete statistics, China's alkaline electrolyzer market remained at 43.77 GW, and the PEM electrolyzer market remained at 2.7 GW. This week, no offline public delivery data was available. Project-related updates: Heilongjiang Jiayirongyuan Green Chemical Co., Ltd.: China Chemistry Tianchen Company signed an EPC general contracting contract with Heilongjiang Jiayirongyuan Green Chemical Co., Ltd., a subsidiary of Jiaze New Energy, for the 300,000 mt green hydrogen-methanol-aviation fuel chemical co-production project in Jidong County, Jixi City, Heilongjiang Province. The project has a total investment of approximately 3.557 billion yuan and is a key project under the national "dual carbon" strategy. Using agricultural and forestry waste as raw material and adopting biomass gasification and cellulose fermentation technologies, the project plans to produce 240,000 mt of green methanol and 80,000 mt of green ethanol annually, with flexible switching to 50,000 mt/year of sustainable aviation fuel (SAF). The project plans to commence production by the end of 2027, consuming over 1.5 million mt of agricultural and forestry waste annually. Shandong Expressway Service Development Group Co., Ltd.: The PEM electrolysis hydrogen production and energy storage section of the Phase II comprehensive utilization project at Gaomi Service Area Hydrogen Refueling Station released its bid-winning announcement, with Guofu Hydrogen Energy winning the bid at 21.2724 million yuan. The project is part of the Ministry of Science and Technology's "Hydrogen into Homes" demonstration program, undertaken by Shandong Expressway Service Development Group, and is located in the south area of Gaomi Service Area, aiming to build an integrated demonstration station for PV hydrogen production and hydrogen refueling. The project comprises three segments: alkaline hydrogen production, PEM hydrogen production and energy storage, and hydrogen refueling station. Currently, the alkaline hydrogen production section has been completed, and the hydrogen refueling station is under construction. The PEM hydrogen production capacity in this phase is 100 Nm³/h with a rated power of 200 kW, equipped with electrolysis skids, compressors, hydrogen storage cylinder groups, and control systems. The designed construction period is 120 days, and the project will improve the green electricity hydrogen production and energy storage facilities at the expressway service area, supporting the construction of zero-carbon hydrogen expressways. Mingtuo (Inner Mongolia) Comprehensive Resource Utilization Co., Ltd.: The e-SAF (electro-sustainable aviation fuel) project officially received filing approval. The project is located in Jiuyuan Industrial Park, Baotou City, on an industrial planning plot north of Mingtuo Chromium Industry's plant and west of Hengtai Road, with a total investment of 1.8 billion yuan. The plan is to build a 150,000 mt/year electro-sustainable aviation fuel production line, along with supporting facilities including gas pretreatment, synthesis, hydrorefining, fractionation, tank farms, pump stations, and related auxiliary facilities. The project plans to start construction in April 2027 and be completed and put into operation in April 2029. Xinjiang Shengxiong Energy Co., Ltd.: The EPC project for the 5,000 Nm³/h waste coal gas green hydrogen extraction and comprehensive utilization by Xinjiang Shengxiong Energy has fully completed construction tasks, with the full-process commissioning successfully completed in one run, and is now officially ready for production and operation. The project adopts advanced green hydrogen extraction technology, using industrial waste coal gas as raw material to achieve efficient resource conversion of tail gas and produce high-purity clean hydrogen energy. After commissioning, it can extend the coal chemical industry chain, improve the utilization rate of industrial by-product resources, reduce pollutant emissions, and provide a stable hydrogen source for the enterprise's methanol units, achieving synergistic improvement in economic, ecological, and social benefits. Wolong Innorde (Zhejiang) Hydrogen Energy Technology Co., Ltd.: The company successfully won the bid for the Binyang County, Guangxi green electricity hydrogen production pilot construction project (100 Nm³/h AEM hydrogen production equipment) and has officially signed the contract, marking an important breakthrough in the company's market expansion in the green electricity hydrogen production field and laying a solid foundation for further business development in the South China region. The project was initiated by Kunpeng Water, a Guangxi local state-owned enterprise, and is the first AEM technology green electricity hydrogen production project in Guangxi. It completed filing in March 2026 and aims to leverage green electricity resources to conduct hydrogen production pilot trials, supporting regional energy structure transformation and industrial decarbonization. Wuhan Institute of Rock and Soil Mechanics, Chinese Academy of Sciences: China's first million-cubic-meter-level salt cavern hydrogen storage demonstration project, led by the institute, was officially put into operation in Pingdingshan City, Henan Province. The project is China's first hydrogen storage facility built in bedded salt rock formations, which explored the multi-scale migration patterns of hydrogen in ultra-low permeability rock salt, overcame the core technology of precise site and layer selection for salt cavern hydrogen storage, and effectively verified the long-term sealing performance and engineering feasibility of hydrogen storage in bedded salt rock. Baimahu Laboratory Hydrogen Energy (Changxing) Co., Ltd.: The Baimahu Laboratory Changxing Hydrogen Energy Base liquid hydrogen test platform installation and commissioning project released a tender announcement. The project is located in Meishan Town, Changxing County, Huzhou City, with a total estimated investment of 310 million yuan and a land area of 68 mu. The project budget is 55.0906 million yuan, with construction and installation costs of approximately 51.1045 million yuan, and will build testing platforms for key equipment such as liquid hydrogen valves, storage tanks, and flow meters. The tender scope covers process, electrical, automation control, and equipment installation and commissioning. The planned construction period is 210 calendar days, and consortium bidding is allowed (no more than 2 members). Xindao Hydrogen Energy Technology (Baotou) Co., Ltd.: The Guyang County 200,000 mt/year hydrogen-based green fuel (green methanol) off-grid green electricity direct-connection project officially commenced construction. Located in Jinshan Economic Development Zone, Guyang County, Baotou City, the project is Xindao Energy's first demonstration project in the hydrogen-based green fuel field, with a total investment of 5.1 billion yuan, covering 600 mu. It will be built in three phases, with full completion and commissioning planned for 2028. The energy side is configured with 390 MW off-grid wind power and 100 MW off-grid PV, coupled with biomass waste heat power generation and flywheel energy storage, building an integrated "electricity-hydrogen-carbon-methanol" system to address the challenges of off-grid green electricity fluctuations and stable operation of chemical units, achieving efficient green methanol synthesis. Shenneng Northern (Etuoke Front Banner) Energy Development Co., Ltd.: The electrolysis hydrogen production station project for the Etuoke Front Banner wind and solar power hydrogen production integrated green ammonia synthesis project completed filing. The project is located in the Energy and Chemical Zone of Shanghaimiao Economic Development Zone, Etuoke Front Banner, Ordos City, with clearly defined boundaries and a total investment of 1.3265 billion yuan. The project plans to build a water electrolysis hydrogen production station with an annual output of approximately 20,000 mt of green hydrogen, using PEM proton exchange membrane electrolyzers as the primary equipment, supplemented by ALK alkaline electrolyzers and AEM anion exchange membrane electrolyzers. This approach integrates the advantages of multiple technology pathways to adapt to the fluctuation characteristics of new energy power. Supporting facilities including gas-liquid separation, hydrogen purification, hydrogen storage, water treatment, step-down substations, and fire safety and security systems will also be constructed. After completion, the station will operate in strict compliance with renewable energy hydrogen production industry safety standards. The project plans to commence construction in December 2026 and be completed in December 2028. Goldwind Green Energy Hydrogen Technology (Xing'an League) Co., Ltd.: The Xing'an League Goldwind Science&Technology Wind Power Hydrogen Production (Phase III) Project officially obtained filing approval. Located in the Xing'an League Economic Development Zone of Inner Mongolia, the project has a total investment of 2 billion yuan. The project mainly involves the construction of hydrogen production, compression, gas storage, air separation units, and related supporting facilities, with a hydrogen production capacity of 160,000 standard cubic meters per hour. Construction plans to commence in September 2026, with completion and commissioning in September 2028. Inner Mongolia Huadian Huayang Hydrogen Technology Co., Ltd. : The Inner Mongolia Huadian Damaoqi 1 million kW Wind and Solar Power Integrated Hydrogen Production Project released a tender announcement for technical services on a special study on short-circuit ratio improvement. Located in Damaoqi, Baotou City, Inner Mongolia, the first phase plans to build 1 million kW of new energy installed capacity, including 700 MW of wind power and 300 MW of PV, equipped with 70 units of 10 MW wind turbines and 710-740Wp half-cell double-glass N-type PV modules. The project will also construct a 100MW/200MWh LFP battery ESS power station, two 220 kV step-up substations, and collector lines. Multiple alkaline electrolyzer hydrogen production systems are planned, with an annual green hydrogen production capacity of 47,000 mt, supported by 25 units of 2,000 m³ hydrogen gas spherical tanks with a hydrogen storage capacity of 650,000 standard cubic meters, along with a new 220 kV hydrogen production main step-down substation. The tendered services are required to be completed within 45 days from the date of contract signing. Jiangsu Lanze Energy Technology Co., Ltd.: The Dafeng District Bureau of Natural Resources and Planning released a pre-approval public notice for the Lanze Dafeng Port 300,000 mt/year green methanol project. The project is located in the Petrochemical Industrial Park of Dafeng Port Economic Development Zone, Dafeng District, Yancheng City. This public notice mainly involves minor adjustments and optimizations to the dimensions, areas, names, and heights of certain buildings and structures. Beijing Hydrogenergy Technology Co., Ltd. : The company won the bid for the PEM pure water electrolysis hydrogen production equipment procurement project of the Electric Power Research Institute of State Grid Jiangxi Electric Power Co., Ltd., responsible for equipment production, supply, transportation, and subsequent supporting services. The PEM hydrogen production unit awarded in this bid will be used to verify the response characteristics of PEM hydrogen production systems under green electricity fluctuation conditions, accumulating measured operational data for flexible load regulation of the power grid. As one of the earliest PEM hydrogen production research-type units deployed in the Jiangxi power grid system, this project will also provide important technology selection references for the subsequent construction of regional hydrogen energy storage demonstration stations. Datang Jingtai Wind Power Co., Ltd.: Datang released a tender announcement for technical services on the preparation of a feasibility study report for a wind-solar coupled off-grid hydrogen production demonstration project, located in Baiyin District, Baiyin City, Gansu Province. The project plans to build a new 21 MW wind-solar coupled hydrogen production power station, including 14 MW of wind power and 7 MW of PV, with a supporting 5MW/5MWh grid-forming ESS, along with a 12 MW hydrogen production station. The station will selectively deploy ALK, AEM, PEM, and SOEC multi-type electrolyzer equipment, with green hydrogen output required to meet the national standard for ultra-pure hydrogen. The project will also include supporting construction of hydrogen buffer tanks, compression and filling systems, as well as auxiliary facilities such as desalinated water stations, air compressor stations, and control buildings. Longyuan Power Longyuan (Zhangye) New Energy Development Co., Ltd.: The company initiated open procurement for 500 standard cubic meter PEM electrolyzer hydrogen production equipment and ancillary equipment for the Zhangye Carbon Neutrality Industrial Base Wind-Solar-Hydrogen-Storage Integration Project. Located in the Circular Economy Demonstration Park of Zhangye Economic and Technological Development Zone, Gansu Province, this is also the first green electricity hydrogen production project deployed by China Energy Investment Corporation in Gansu Province. Policy Review 1. The General Office of the Ministry of Industry and Information Technology and other departments jointly issued the Guidelines for Green Design of Industrial Products (2026 Edition). The Guidelines mention: developing green design solutions. Focusing on industries including automobiles, construction machinery, machine tools, bearings, wind power equipment, hydrogen energy equipment, PV, lithium batteries, household appliances, packaging, cleaning products, textiles, biomanufacturing, methanol, and tires, and targeting key directions of green design, the aim is to develop green design solutions that are technologically advanced, economically feasible, and supply-demand compatible, forming a batch of replicable and scalable exemplary green design solutions. The initiative will cultivate green design solution providers with high professional standards and strong service capabilities, building a virtuous ecosystem of "demand-driven—solution development—industrial application." 2. The General Office of the CPC Central Committee and the General Office of the State Council issued the Opinions on Achieving Higher-Level and Higher-Quality Energy Conservation and Carbon Reduction. The document aims to use transportation energy conservation and carbon reduction and green energy transition as two key drivers, coordinating low-carbon development with energy security, and accelerating the construction of a clean, low-carbon, safe, and efficient modern energy and transportation system. Enterprise Updates Guohua Investment Mengxi Branch: China's first heavy-haul railway hydrogen refueling station, the Batuta Hydrogen Refueling Station, achieved a cumulative hydrogen refueling volume exceeding 10,000 kg, marking a milestone in the scaled application of hydrogen energy in China's heavy-haul railway sector. Located at the Hailesuhao South Station in Ejin Horo Banner, Ordos City, Inner Mongolia, the station is a key hydrogen energy industry demonstration project of Guohua Investment, with a daily hydrogen refueling capacity of 500 kg. It primarily provides hydrogen refueling services for large power hydrogen-powered shunting locomotives and hydrogen fuel cell plus lithium battery zero-emission catenary maintenance vehicles, accumulating valuable demonstration experience for the green and low-carbon transformation of heavy-haul railways. Tianjin Zhonghe Energy Management Co., Ltd.: The world's first 5 MW anion exchange membrane (AEM) water electrolysis hydrogen production system completed installation and commenced commissioning, marking the official entry of megawatt-scale AEM technology into the industrial application stage. Beijing Mingyang Hydrogen Technology Co., Ltd. : The company received written authorization from the American Society of Mechanical Engineers (ASME), successfully obtaining the manufacturing license and quality certification under the ASME Boiler and Pressure Vessel Code. Guangzhou Yunfu Hydrogen Technology Co., Ltd.: The company officially opened in Baiyun District, Guangzhou. Yang Qiang, Chairman of Yuntao Hydrogen, Ding Leizhe, Executive Vice President of Guofu Hydrogen, along with representatives from the government and partners attended the ceremony. Yunfu Hydrogen was jointly established by Guangdong Yuntao Hydrogen and Jiangsu Guofu Hydrogen, focusing on R&D, integrated manufacturing, and services for core hydrogen energy equipment, with the goal of building a leading hydrogen energy equipment industrialisation hub in South China. The project has a total investment of 500 million yuan, with a Phase I workshop of approximately 1,300 m², primarily engaged in vehicle-mounted high-pressure hydrogen supply systems and core equipment integration for hydrogen refueling stations. Shaanxi Hydrogen Energy Industry Development Co., Ltd.: The company held a discussion and exchange meeting with the Shenmu Municipal Government and officially signed an investment cooperation framework agreement. At the meeting, Liu Wei, Deputy Secretary of the Party Committee and General Manager of Shaanxi Hydrogen Energy, and Han Xiujin jointly signed the agreement. Both parties conducted in-depth exchanges on hydrogen energy industry development planning and key project cooperation, reaching a cooperation consensus. Heads of relevant departments of the Shenmu Municipal Government, as well as heads of relevant departments and subordinate units of Shaanxi Hydrogen Energy, attended the meeting. Tianjin Rongcheng Xinneng Technology Group Co., Ltd.: The company's 5 MW anion exchange membrane (AEM) water electrolysis hydrogen production system completed equipment installation and officially entered the commissioning stage. Zhejiang Sunshine Green Hydrogen Technology Co., Ltd.: The company's self-developed A11 and B11-series core electrolyzer equipment successfully completed long-cycle operation verification. The series uniformly adopted a current density of 1.5 A/cm², completing dual-line endurance tests under both atmospheric pressure and 1.6 MPa high-pressure conditions, with uninterrupted stable operation exceeding 8,000 hours in both cases. Patent Applications 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences (China) published patent CN2025110028, developing a ceramic-based anion exchange membrane with a laboratory-tested lifespan of 80,000 hours. 2. Johnson Matthey (UK) filed patent WO2025109876, disclosing an Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity approaching that of platinum-based materials. Technology Footprint/Technical Specifications 1. Two group standards on water electrolysis hydrogen production were officially released and implemented, namely the Safety Technical Specification for Water Electrolysis Hydrogen Production and the Calculation Method for Economic Operation Indicators of Water Electrolysis Hydrogen Production. 2. Petronor and H2SITE collaborated to advance membrane technology for hydrogen production, improving high-purity hydrogen and low-carbon efficiency in refining. 3. Dalian University of Technology designed an electron pump catalyst with an asymmetric photo-responsive structure, maintaining the asymmetry of electron distribution. 4. A research team from the School of Electrical Engineering and the State Key Laboratory of Electrical Insulation and Power Equipment at Xi'an Jiaotong University successfully developed a Ru/Ti₃C₂Oₓ@NF bifunctional electrocatalyst for seawater electrolysis. 5. The team led by Professor Yu Ying at Central China Normal University developed a three-dimensional hierarchical nanostructured catalytic electrode as a core component for seawater hydrogen production.

Capacity: according to incomplete statistics, China's alkaline electrolyzer market remained at 43.77 GW, the PEM electrolyzer market remained at 2.7 GW, with no new capacity additions for the time being. This week, CPU Hydrogen Power's independently developed 100 Nm³ containerized integrated hydrogen production system completed factory detection and was officially shipped to Sichuan; Trina Green Hydrogen completed the centralized delivery of a batch of 1,000 Nm³/h alkaline hydrogen production equipment, which had arrived at a large-scale green ammonia-methanol project site in China and was about to commence installation; Yigong completed the shipment and delivery of its independently developed and manufactured hydrogen compressor station units. Project-related updates: Jiamusi Hanya New Energy Co., Ltd. : officially signed a memorandum of cooperation in Hefei with Johnson Matthey, a global leader in sustainable technology, and East China Engineering Science and Technology Co., Ltd. The three parties will jointly advance the implementation of the 150,000 mt biomass green methanol demonstration project invested and constructed by Sunshine Green Energy in Tiandong County, Guangxi. Jiang Xi, Executive President of Sunshine Green Energy, Zhong Ling, General Manager of Johnson Matthey China, and Meng Chenzhou, General Manager of East China Engineering Science and Technology, signed the agreement on behalf of their respective parties. Zhongneng Kehang (Baotou) New Energy Technology Co., Ltd.: The annual 300 million m³ green electricity-to-hydrogen project received filing approval. The project is located in Jinshan Economic Development Zone, Guyang County, Baotou City, Inner Mongolia Autonomous Region, with a total investment of 500 million yuan. Construction scale and content: 18 new hydrogen production lines, office buildings, workshops, shift dormitories, etc. Planned construction period: 2026/08–2028/07. Huawang (Qingdao) Hydrogen Energy Technology Group Co., Ltd.: plans to build a 5,000 Nm³/h PSA purification hydrogen production unit in Dongjiakou Chemical Industrial Park, Huangdao District, Qingdao City, Shandong Province. The project will utilize industrial by-product hydrogen resources within the park, and the purified hydrogen will be transported via pipeline to downstream hydrogen refueling stations. The company is now publicly soliciting interested partner manufacturers nationwide, collecting relevant equipment technical proposals and organizing evaluations. Suppliers with appropriate qualifications and project experience are welcome to participate. The project is located in Dongjiakou Chemical Industrial Park, Boli Town, Huangdao District, Qingdao City, with the liaison location at the Hydrogen Energy Building, Boli Town, West Coast New Area, Qingdao City. The available construction area for the unit is approximately 720 m² (30 m × 24 m). Bidding entities are required to complete the layout of process equipment, pipe racks, and maintenance access within the premises of meeting fire protection and safety clearance requirements. Utilities including electricity, circulating water, instrument air, nitrogen, and fire water can be connected to Jinneng Chemical's existing systems. Tieling Carbon Cycle Biotechnology Co., Ltd.: China Energy Engineering Group's CEEC Heilongjiang Institute won the EPC general contracting project for Tieling Carbon Cycle's biomass-to-green-methanol green electricity direct connection project. The project is located in the Chemical Industrial Park of Diaobingshan City, Tieling, Liaoning Province. In this phase, three 220 mt/h high-temperature and high-pressure circulating fluidized bed biomass boilers will be constructed, along with one 50 MW high-temperature and high-pressure extraction-condensing turbo-generator set. Supporting facilities including a desalinated water station, fuel storage yard, and main step-down substation will be built simultaneously. The project primarily provides green electricity and green steam for the overall green ethanol production project, serving as a supporting power plant project. Gansu Runlong Hongneng Energy Management Co., Ltd.: The Guazhou County wind and solar power hydrogen production coupled with biomass-based 250,000 mt/year green methanol integration project, with a total investment of 5.5 billion yuan, officially commenced construction at the Liugou Coal Chemical Industrial Park. The project is invested and constructed by Gansu Runlong Hongneng Energy Management Co., Ltd. It is a major construction reserve project listed by Gansu Province for 2026 and a key benchmark industrial project for Jiuquan City and Guazhou County. The project plans to build 390 MW wind power, 150 MW PV, with supporting 160 MW/320 MWh grid-forming ESS, 48,000 Nm³/h water electrolysis hydrogen production facilities, and a 250,000 mt/year green methanol synthesis unit, while simultaneously achieving biomass gasification synthesis coupled production. Adopting the "green electricity to green hydrogen + biomass gas synthesis" technology route, the project can achieve over 5% self-generated and self-consumed clean electricity, produce over 20,000 mt of green hydrogen annually, consume over 200,000 mt of agricultural and forestry waste annually, and build a zero-carbon energy and resource recycling system. China Energy Engineering Bochuang Green Fuel (Shenyang) Co., Ltd.: The Phase I 100,000 mt green methanol project of the Shenyang wind and solar power hydrogen production integrated with biomass green alcohol and oil demonstration project released an EPC general contracting tender announcement. Phase I construction includes 100 MW centralised wind power, 50 MW/100 MWh electrochemical energy storage, a 100,000 mt/year green methanol unit, and supporting facilities such as 360,000 mt/year biomass pretreatment. The biomass pretreatment plant produces 360,000 mt of biomass white pellets annually. The green methanol system is equipped with 3×1,000 Nm³/h electrolyser hydrogen production equipment, 60,000 Nm³ hydrogen storage tanks, two 600 mt/day pressurised fluidised bed gasification units, and a 100,000 mt/year methanol synthesis unit. The wind farm installs ten 10 MW wind turbines with a rotor diameter of 230 m and a wheel hub height of 160 m, connected to the project's supporting 66 kV step-down substation via two 66 kV overhead lines, with corresponding public auxiliary works constructed simultaneously. Zhongke Yitan Energy Technology (Chifeng) Co., Ltd.: The Hexigten Banner wind and solar power hydrogen-to-methanol and SAF integration project received filing approval. The project is located in Bayanduhumu Gacha, Darihanwula Sumu, Hexigten Banner, Chifeng City, Inner Mongolia Autonomous Region. The project entity is Zhongke Yitan Energy Technology (Chifeng) Co., Ltd., with a total investment of 7.5 billion yuan. Construction scale and content: 1. Construction of one water electrolysis hydrogen production line, including water electrolysis hydrogen production equipment, gas-liquid separation equipment, purification equipment, etc., with an annual green hydrogen output of 62,500 mt; 2. Construction of one green methanol synthesis production line, including biomass gasification equipment, combined purification equipment, methanol synthesis equipment, etc., with an annual green methanol production of 500,000 mt; 3. Construction of one SAF synthesis production line, with an annual SAF production of 100,000 mt. Planned construction period: 2026/05–2028/12. Jiamusi Hanya New Energy Co., Ltd. : China Energy Engineering CEPDI North China Institute signed a contract for the feasibility study and survey design of the Heilongjiang Huanan County 1.2 GW off-grid wind power hydrogen production and 500 MW grid-connected wind power project. In the off-grid wind power hydrogen-to-methanol project, the total installed wind power capacity is 1.2 GW, using 48 units with a single-unit capacity of 6.25 MW and 90 units with a single-unit capacity of 10 MW. The annual power generation of the wind farm is approximately 3.7 billion kWh, with approximately 3,081 annual equivalent full-load hours. Supporting construction includes four 220 kV step-up substations and ESS. After wind power hydrogen production, the hydrogen reacts with captured biomass carbon sources to produce methanol, with an annual methanol output of approximately 300,000 mt. Policy Review 1. The General Office of the Ministry of Industry and Information Technology and other departments jointly issued the Guidelines for Green Design of Industrial Products (2026 Edition). The Guidelines mention: Developing green design solutions. Focusing on industries such as automobiles, construction machinery, machine tools, bearings, wind power equipment, hydrogen energy equipment, PV, lithium batteries, household appliances, packaging, detergents, textiles, biomanufacturing, methanol, and tyres, and targeting key directions of green design, the aim is to develop green design solutions that are technologically advanced, economically feasible, and supply-demand compatible, forming a batch of replicable and scalable exemplary green design solutions. The goal is to cultivate green design solution providers with high professional standards and strong service capabilities, and to build a virtuous ecosystem of "demand-driven — solution development — industrial application". 2. Opinions of the General Office of the CPC Central Committee and the General Office of the State Council on Achieving Higher-Level and Higher-Quality Energy Conservation and Carbon Reduction. The opinions aim to use transport energy conservation and carbon reduction and green energy transition as two key drivers, coordinate low-carbon development with energy security, and accelerate the construction of a clean, low-carbon, safe, and efficient modern energy and transport system. Enterprise Updates Shanghai Yigong Hydrogen Energy Technology Co., Ltd.: The independently developed hydrogen compressor station unit completed delivery and shipment. The equipment will serve as the core power equipment for a hydrogen refueling station, applied in the Sinopec Shanghai Pudong Airport hydrogen refueling station project, providing high-pressure hydrogen refueling services for fuel cell logistics vehicles and tow tractors at the airport, and supporting the construction of a green, low-carbon, and smart integrated energy system at Pudong Airport. Lineng New Energy Technology (Beijing) Co., Ltd.: Hanshan County signed a contract with Lineng New Energy Technology (Beijing) Co., Ltd. for a carbon paper diffusion layer substrate material R&D and manufacturing project. This project is a localisation project for key materials of hydrogen fuel cells and will be established in Hanshan, Anhui Province. Jiangsu Trina Green Hydrogen Technology Co., Ltd.: A batch of 1,000 Nm³/h alkaline hydrogen production equipment was delivered in a centralised shipment. The equipment has arrived at a large-scale domestic green ammonia-methanol project site and is about to commence installation. All electrolysers delivered in this batch were shipped after passing detection at the hydrogen production testing platform at the Yangzhou base. The platform covers approximately 2,000 m², is compatible with full-range hydrogen production system testing from 500 to 2,000 Nm³/h, has cumulatively completed testing of equipment exceeding 50 MW in scale, and possesses full-process performance verification and three-tier safety management capabilities. Suzhou CPU Hydrogen Power Technology Co., Ltd. : The independently developed 100 Nm³ containerised integrated hydrogen production system completed factory detection and was officially shipped to Sichuan, where it will support a local central state-owned enterprise hydrogen production project. The equipment adopts a modular integrated design, integrating electrolysis hydrogen production, purification, and intelligent management processes into a standard container, offering the advantages of convenient transport and rapid installation, enabling "installation upon arrival, commissioning upon installation." The equipment is customised to operate 8,000 hours annually, producing 72 mt of high-purity hydrogen per year. All performance parameters meet the stringent requirements of central state-owned enterprises, ensuring stable and continuous industrial hydrogen supply. Huadian (Ningxia) Energy Co., Ltd.: The tender for the preparation of the planning report for the Ningdong and surrounding areas green hydrogen coupled coal chemical integration project was officially released. The project covers the Ningxia Ningdong Energy and Chemical Industry Base and surrounding areas of Lingwu and Wuzhong, as well as the Ordos region of Inner Mongolia, planning to build a 10kt-level green hydrogen coupled coal chemical and cross-regional pipeline hydrogen transport system. The core project scale includes approximately 1.5 GW of new energy installed capacity, with supporting annual green hydrogen production of approximately 40,000 mt, for deep coupling with traditional coal chemical industries. According to the announcement, the winning bidder is required to complete the full set of planning reports within 180 days after the contract takes effect. The tender scope covers entire industry chain research, including regional industrial foundations, green hydrogen supply-demand and economic analysis, hydrogen storage and transport systems, key project planning, feasibility of green electricity-to-hydrogen layout, and energy and electricity policy consultation for both Ningxia and Inner Mongolia. China Marine Bunker (PetroChina) Co., Ltd.: Windey Energy Technology Group and China Marine Bunker officially signed a strategic cooperation agreement. Qin Ling, General Manager of China Marine Bunker, and Cheng Chenguang, General Manager of Windey Energy Technology Group, attended the ceremony and witnessed the signing. Under the agreement, both parties will focus on the core business of green fuel consumption and sales, deepening collaboration and synergising efforts in key areas such as specification and standard formulation, pricing mechanism development, and logistics and transport systems. By integrating resources and leveraging complementary strengths, they aim to jointly enhance the core competitiveness of the green shipping industry chain and inject new momentum into promoting high-quality transformation and green, low-carbon development of the shipping industry. Beijing Mingyang Hydrogen Energy Technology Co., Ltd.: Officially signed a series of hydrogen production equipment sales contracts with Spanish company KT. Under the agreement, Mingyang Hydrogen Energy will serve as the core hydrogen energy equipment and solution provider, supplying Spanish company KT with 1 MW AEM and 25 MW ALK complete hydrogen production systems and related supporting services, jointly opening a new chapter in in-depth Sino-Spanish green hydrogen industry cooperation. Hangyang Group Co., Ltd.: The company recently announced plans to invest in establishing Ordos Hangyang Gas Co., Ltd. (tentative name), constructing a new 70,000 Nm³/h air separation unit at the Dalu Industrial Park in Jungar Banner, Ordos City, Inner Mongolia, to provide critical gas supply for the Phase II expansion project of Inner Mongolia Tianrun Green Energy Chemical's 300,000 mt synthetic ammonia and 520,000 mt urea project. The park is a national-level modern coal chemical industry base in Inner Mongolia. Patent Applications 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences (China) published patent CN2025110028, developing a ceramic-based anion exchange membrane with a laboratory-tested lifespan of 80,000 hours. 2. Johnson Matthey (UK) filed patent WO2025109876, disclosing a Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity approaching that of platinum-based materials. Technology Footprint / Technical Specifications 1. Petronor and H2SITE collaborated to advance membrane technology for hydrogen production, enhancing high-purity hydrogen and low-carbon efficiency in refining. 2. Dalian University of Technology designed an electron pump catalyst with an asymmetric photo-responsive structure, maintaining asymmetry in electron distribution. 3. The research team from the School of Electrical Engineering and the State Key Laboratory of Electrical Insulation and Power Equipment at Xi'an Jiaotong University successfully developed the Ru/Ti₃C₂Oₓ@NF bifunctional electrocatalyst for seawater electrolysis. 4. The team led by Professor Yu Ying at Central China Normal University developed a three-dimensional hierarchical nanostructured catalytic electrode as a core component for seawater hydrogen production. 5. Johnson Matthey and Syensqo achieved efficient recovery and recycling of platinum group metals and ionomers from PEM fuel cells and electrolysers, significantly reducing the carbon footprint.

Based on on-site visits to the 2026 China Hydrogen Energy Exhibition and International Hydrogen Energy Conference, the most intuitive impression of this edition was that the industry as a whole is cooling down. Although the exhibition quality was moderate, enterprise participation and novelty were noticeably inferior to previous editions. In the hydrogen production sector, top-tier enterprises such as Sungrow Hydrogen, LONGi Hydrogen, and CRRC ZELC attended to hold up the show, while a number of mainstream industry players including LuDao Hydrogen, CSSC Peric, and MingYang Hydrogen did not exhibit. Fuel cell enterprises were almost entirely absent, with most having shifted to the FCVC exhibition in Shanghai. The exhibitors were still dominated by general parts enterprises such as valves, instruments, gaskets, and compressors, while core parts enterprises showed very low willingness to participate. The reasons were quite practical: on one hand, over 30% of hydrogen production enterprises make their own electrodes and separators, and the remaining enterprises have long established fixed partnerships with parts suppliers. Exhibitions can hardly bring in new clients and offer poor cost-effectiveness, so there were many familiar faces and few new enterprises on site. Instead, non-ferrous material enterprises such as Guiyan, Heraeus, Baoti, and Beikuang New Materials appeared in clusters, becoming the most noteworthy new change at this exhibition. Market differentiation in the hydrogen production segment has become very clear, with involution in China and going global becoming the mainstream choice for enterprises. Alkaline electrolysers face fierce price competition in China, with the price spread versus PEM continuing to widen. Medium-sized and larger enterprises have generally turned their attention to markets outside China, where export prices for MW-scale hydrogen production systems are considerable, along with export tax rebate policies. To meet European local content requirements, small and medium-sized enterprises mostly partner with local dealers, while top-tier enterprises are planning to build factories directly in Europe. Quite a few PEM electrolyser enterprises exhibited, but products were mainly small-scale units, primarily targeting metal refineries and small and medium-sized chemical enterprises. The biggest obstacle to promotion is ambiguous policy positioning — hydrogen is both an energy source and a hazardous chemical, and new equipment must go through approval and filing. Some local governments and enterprises show slightly lower enthusiasm due to safety and efficiency considerations. At this exhibition, the AEM technology route clearly gained momentum, with both equipment and parts enterprises increasing their deployment and technical exchanges becoming more open. However, the core issue remains the relatively short membrane lifespan, far below that of alkaline and PEM electrolysers. Meanwhile, the closed landscape of PEM core parts is being broken. Electrodes, membranes, and other components that enterprises previously kept for internal use are now being sold on the retail market, and the degree of marketisation across the industry chain is increasing. The convergence of non-ferrous materials and hydrogen energy is rapidly increasing, which is the most practically valuable signal from this exhibition. Enterprises such as Heraeus and Guiyan are concentrated in the PEM electrolyser catalyst field, Baoti's titanium materials are mainly used for bipolar plates, and nickel is a key material for alkaline electrolysers, extensively used in electrode plates, separator frames, and bipolar plates. Currently, catalyst enterprises are essentially all pursuing an integrated route of raw materials, compounds, and catalysts, while also supporting recycling operations. Small platinum group metal enterprises are also extending toward end-users, with a clear trend of full-chain deployment. By contrast, gas companies were almost absent from this exhibition, perhaps because metal powder users went to the powder metallurgy exhibition in Shanghai during the same period. There was some enterprise participation in the methanol-hydrogen blending and natural gas-hydrogen blending directions, with economic viability being more prominent in high natural gas price areas in south China, while promotion potential is relatively limited in the north where natural gas prices are more advantageous. Interest in hydrogen storage and transportation, refuelling, and fuel cell sectors continued to decline, with top-tier enterprises largely absent. Attention to hydrogen fuel cells fell far short of hydrogen production, and hydrogen production itself is also cooling down. Based on enterprise feedback on the 15th Five-Year Plan subsidy policies, subsidy resources are mainly concentrated in demonstration projects, infrastructure, and hydrogen transportation, with no direct subsidies for equipment manufacturing enterprises, which can only seek support through technological innovation and project applications. Cut-throat competition is expected to continue further. Overall, the current hydrogen energy industry has not broken out of its existing landscape. AEM is beginning to move toward marketisation, PEM remains focused on small batches and small-scale units, large alkaline electrolysers still rely on demonstration projects, and SOFC is also progressing gradually. As core parts become more open and market price signals become clearer, the industry is shifting from past expansion and momentum-building toward substantive implementation and deep cultivation. Future opportunities are more concentrated in the localisation of materials, marketisation of core parts, and expansion into markets outside China.

Scientists at the University of Cambridge have developed a solar‑powered reactor that uses acid recovered from spent car batteries to break down hard‑to‑recycle plastics and produce clean hydrogen fuel and valuable chemicals. The novel “solar‑powered acid photoreforming” process could offer a cheaper, more sustainable way to tackle plastic pollution and generate renewable energy

On April 4, the megawatt (MW)-class hydrogen-fuelled aviation turboprop engine AEP100, independently developed by AECC Academy of Aero-Engine Research, was installed on a 7.5 mt-class unmanned transport aircraft and successfully completed its maiden flight at Zhuzhou Lusong Airport. This marked the world's first flight test of a megawatt-class hydrogen-fuelled aviation turboprop engine, signifying a breakthrough in the development of green aviation propulsion in China. The maiden flight proceeded smoothly throughout, with the engine operating normally and in good condition. The flight lasted a total of 16 minutes in the air, covering a distance of 36 kilometres at a speed of 220 kilometres per hour and an altitude of 300 metres above ground. The aircraft returned safely after successfully completing all scheduled flight test objectives, and the maiden flight mission was a complete success. The successful maiden flight was of great significance. It not only achieved a leap from technology to engineering in China's independent development of megawatt-class hydrogen-fuelled aviation engines, but also signified that China had established the full technology chain in this field, from core components to complete engine integration. It verified the engineering reliability of the hydrogen fuel propulsion system's compatibility with the flight platform, laying a critical foundation for the subsequent industrialisation of hydrogen-powered aviation applications. This became an important milestone in China's transition of green aviation propulsion from technological exploration to engineering practice.

Recently, the Hubei Provincial Energy Bureau released the public announcement of the sixth batch of first (set of) major technological equipment in the energy sector. The announcement showed that four major hydrogen energy technological equipment projects were selected, covering key segments of the hydrogen energy sector and highlighting the progress of hydrogen energy equipment R&D and application in the province. The four selected equipment projects are: a kilonormal-cubic-meter-class alkaline-PEM integrated electrolysis hydrogen production system, a marine methanol fuel supply system, a multi-chamber physical vapor deposition system for hydrogen fuel cell bipolar plates, and a large-scale off-grid flexible hydrogen production system, all of which feature distinctive innovation and application value. The kilonormal-cubic-meter-class alkaline-PEM integrated electrolysis hydrogen production system was jointly developed by five enterprises, with China Power Construction (Zaoyang) New Energy Development Co., Ltd. as the user entity, based on the China Power Construction Zaoyang New Energy Hydrogen and Oxygen Production Project. The equipment pioneered wide-load flexible regulation technology, enabling 10%–120% wide-load adjustment and cold start-up in ≤30 minutes, and is compatible with renewable energy, which is of great significance for promoting high-quality development of the hydrogen energy industry. The marine methanol fuel supply system was independently developed by Jingmen Hongtu Special Aircraft Manufacturing Co., Ltd., with its core encompassing multiple key technologies. Its methanol skid adopts an integrated skid-mounted design to achieve "plug-and-play" functionality and features a proprietary three-step pressure stabilization method that can handle fluctuations in methanol consumption, ensuring stable operation under complex working conditions. The multi-chamber physical vapor deposition system for hydrogen fuel cell bipolar plates was developed by Wuhan Research Institute of Materials Protection, China Academy of Machinery Science and Technology Group Co., Ltd. It achieved a leap from batch processing to 15-chamber fully automated continuous production, resolved core deficiencies of similar equipment in China, achieved 100% domestic component supply, and established a benchmark across the entire chain. The large-scale off-grid flexible hydrogen production system has Qianjiang Qingbei Hydrogen Energy Co., Ltd. as the user entity and was jointly developed by four organizations, based on the National Energy Administration hydrogen energy pilot project — the Hubei Qingbei Hydrogen Energy Qianjiang Green Hydrogen Project (green hydrogen capacity of 20,000 normal cubic meters per hour). Its solution is innovative and meets the application requirements. The selection of four hydrogen energy equipment projects is an affirmation of the province's hydrogen energy equipment R&D capabilities. It will drive breakthroughs in key hydrogen energy technologies, accelerate the industrialisation and application of equipment, and inject momentum into the province's energy structure transformation.