I. Coal-to-Hydrogen Shandong anthracite transaction range [1,680-1,680], with an average hydrogen cost of [1.61 yuan/m³] Shanxi anthracite transaction range [910-910], with an average hydrogen cost of [1.05 yuan/m³] Hebei anthracite transaction range [1,390-1,390], with an average hydrogen cost of [1.39 yuan/m³] Henan anthracite transaction range [980-980], with an average hydrogen cost of [1.06 yuan/m³] II. Natural Gas-to-Hydrogen Pearl River Delta natural gas transaction range [5,520-5,620], with an average hydrogen cost of [2.62 yuan/m³] Zhejiang natural gas transaction range [5,500-5,850], with an average hydrogen cost of [2.63 yuan/m³] Guangxi natural gas transaction range [5,180-5,610], with an average hydrogen cost of [2.5 yuan/m³] Eastern Guangdong natural gas transaction range [5,500-5,590], with an average hydrogen cost of [2.58 yuan/m³] Henan natural gas transaction range [4,720-4,890], with an average hydrogen cost of [2.31 yuan/m³] Hebei natural gas transaction range [4,720-5,080], with an average hydrogen cost of [2.33 yuan/m³] Hubei natural gas transaction range [4,980-5,350], with an average hydrogen cost of [2.44 yuan/m³] Guizhou natural gas transaction range [4,990-5,720], with an average hydrogen cost of [2.51 yuan/m³] Sichuan natural gas transaction range [4,825-5,125], with an average hydrogen cost of [2.38 yuan/m³] Shanxi natural gas transaction range [4,520-4,880], with an average hydrogen cost of [2.22 yuan/m³] Shandong natural gas transaction range [5,040-5,250], with an average hydrogen cost of [2.44 yuan/m³] Heilongjiang natural gas transaction range [4,810-5,060], with an average hydrogen cost of [2.34 yuan/m³] Inner Mongolia natural gas transaction range [4,560-4,800], with an average hydrogen cost of [2.18 yuan/m³] III. Propane-to-Hydrogen South China propylene oxide transaction range [7,280-7,370], with an average hydrogen cost of [4.11 yuan/m³] East China propylene oxide transaction range [7,100-7,310], with an average hydrogen cost of [4.05 yuan/m³] Northeast China propylene oxide transaction range [5,890-6,310], with an average hydrogen cost of [3.5 yuan/m³] Shandong propylene oxide transaction range [6,960-7,300], with an average hydrogen cost of [4.03 yuan/m³] IV. Hydrogen Production from Methanol The methanol transaction range in east China was [2,800-3,290], and the average hydrogen cost was [2.61 yuan/m³]. The methanol transaction range in central China was [2,780-2,990], and the average hydrogen cost was [2.54 yuan/m³]. The methanol transaction range in north China was [2,360-2,830], and the average hydrogen cost was [2.29 yuan/m³]. The methanol transaction range in south China was [3,310-3,390], and the average hydrogen cost was [2.8 yuan/m³]. The methanol transaction range in northwest China was [1,630-2,630], and the average hydrogen cost was [1.97 yuan/m³]. The methanol transaction range in southwest China was [2,770-3,020], and the average hydrogen cost was [2.55 yuan/m³]. The methanol transaction range in northeast China was [2,770-2,790], and the average hydrogen cost was [2.44 yuan/m³].

[SMM Hydrogen Energy Bulletin] Recently, the 100-kg-class hydrogen-powered hexacopter UAV "Hydrogen Peak No. 1," developed under the leadership of CSIC 712 Research Institute, successfully completed its maiden flight. It is understood that Hanqing Power, as the primary supplier of the hydrogen supply system for hydrogen fuel cell UAVs, participated in the formulation of T/CEEIA265-2017, Technical Specifications for Fuel Cell Fuel Systems for Unmanned Aerial Vehicles, by the China Electrotechnical Society.

[SMM Hydrogen Energy Flash] On March 17, the senior management team of Putzmeister visited SANY Hydrogen, and the two sides formally reached an intention for cooperation in the European market. This opened a new foreign trade model of "Chinese technology + German service.

On March 20, the Information Office of the Inner Mongolia Autonomous Region Government held a press conference in the series “Implementing the ‘1571’ Work Deployment and Promoting High-Quality Development in Inner Mongolia,” providing a special briefing on the region’s achievements in green hydrogen industry development, key tasks for 2026, and the 15th Five-Year Plan. It made clear that, by leveraging its advantages in wind and solar power resources, Inner Mongolia will advance the full-chain layout of green hydrogen and continue to lead the nation’s green hydrogen industry. Key Focuses of the Hydrogen Energy Industry in 2026: Building a Pioneer Zone for Green Hydrogen Development In 2026, with the construction of a national pioneer zone for the green hydrogen industry as its core goal, Inner Mongolia will comprehensively advance the large-scale deployment of green hydrogen. It will launch pilot projects for large-scale off-grid hydrogen production, expand application scenarios such as blending green hydrogen into natural gas and coupling with the chemical and metallurgical industries, while simultaneously building green hydrogen industrial parks and broadening channels for the non-power use of green electricity. Within the year, construction will begin on three green hydrogen pipelines, including the Ulanqab–Beijing-Tianjin-Hebei route, to improve the transmission network. At the same time, the region will focus on breakthroughs in hydrogen energy technology, deepen collaboration among industry, academia, research, and application, and advance the implementation of demonstration projects for the first unit (set) of hydrogen energy equipment and collaborative innovation projects integrating wind and solar power, hydrogen, and energy storage, so as to consolidate the industry’s technological foundation. Green Hydrogen Industry Achievements Lead the Nation, with Advantages in Both Scale and Cost Becoming Prominent Inner Mongolia is richly endowed with wind and solar power resources, with technically developable wind and solar power resources exceeding 10 billion kW, accounting for one-quarter of the national total, laying a solid foundation for the green hydrogen industry. At present, multiple industry indicators ranked among the top nationwide. A total of 19 policies covering the entire industry chain of green hydrogen had been introduced; 7 projects were included in national demonstration programs; 8 projects were completed and put into operation, forming annual capacity of 80,000 mt. Green hydrogen production reached 12,694 mt in 2025, surging 3.6 times YoY; production in January and February 2026 was 2,653.6 mt, with production costs at 17-20 yuan/kg, only 60% of the national average. In addition, the country’s first provincial-level green hydrogen pipeline plan had been implemented, and the pipeline network featuring “one trunk line, two loops, and four outlets” was being accelerated. The hydrogen pipeline from Darhan Muminggan Banner to urban Baotou had already been completed, while green hydrogen applications now covered transportation, chemicals, power, and other fields, with the consumer market maturing rapidly. Precise Planning Under the 15th Five-Year Plan to Build a Strong Hydrogen Energy Industry Cluster During the 15th Five-Year Plan period, based on its existing foundation, Inner Mongolia will build a distinctive hydrogen energy industry cluster and focus on advancing four major tasks: scientifically formulate industry plans and reasonably lay out clusters by producing based on sales; tackle core technologies such as off-grid hydrogen production and flexible electrolyzers to raise the industry’s technological level; expand diversified application scenarios, improve business models, and open up the entire chain of production, storage, transportation, refueling, and utilization; accelerate the construction of green hydrogen pipelines within the region and across provinces, reduce transportation costs, comprehensively enhance the competitiveness of the green hydrogen industry, and support the industry in continuing to lead the nation.

Recently, Mingyang Hydrogen’s MYH-K-1000 electrolyzer completed the authoritative evaluation under the China Hydrogen Alliance’s “Leader Program” and received the official test report. With multiple industry-leading performance indicators, it has established a new benchmark for alkaline electrolyzers adapted to fluctuating new energy scenarios, marking a major technological milestone for the company in the field of hydrogen energy equipment. This product is the first 1,000 Nm³/h-class alkaline electrolyzer on the China Hydrogen Alliance’s field-testing platform to achieve the “15th Five-Year Plan” target of 20%–120% ultra-wide flexible load regulation . At the 20% minimum load, it can stably control hydrogen content in oxygen to within 1.5%, enabling long-term stable operation. It also features rapid load response capability of 5%/s to 10%/s. Its core performance is industry-leading and perfectly suited to the flexible operating conditions of wind and solar power generation, providing robust support for the development of the green fuel industry. The test certification presentation ceremony was held at Mingyang Hydrogen’s Beijing Center. Yu Tianxiao, Director of the Quality Value Center at Guoneng Hydrogen Innovation and Deputy General Manager of Hydrogen Testing Technology, presented the certification report to Pan Yongle, Executive Director and CEO of Mingyang Hydrogen, and both parties witnessed this important moment together. Rigorous Field Testing Validates Outstanding Performance, Strong Results Under Extreme Cold Conditions According to the alliance’s field-test data, under 100% rated load, the MYH-K-1000 kept hydrogen content in oxygen below 0.5% and successfully passed load ramp-up and ramp-down tests at 3%/s and 5%/s. Under the ultra-low load of 20%, hydrogen content in oxygen remained compliant, while DC power consumption was as low as 3.85 kWh, achieving efficient and stable operation. This long-duration test was conducted throughout in an outdoor environment at minus 20°C . The product still demonstrated excellent cold and hot start capabilities, as well as high reliability, high safety, and fully flexible operating characteristics, overcoming the longstanding low-temperature operating limitations of traditional electrolyzers and enabling adaptation to more extreme application scenarios. Breakthroughs in Core Technology Innovation Set a New Industry Benchmark This electrolyzer adopts advanced integrated die-casting technology, delivering high consistency in its internal structure. The area of its electrolysis unit is 75% larger than that of traditional designs, and it overcomes sealing challenges on the basis of zero-electrode-gap technology, significantly improving product performance and production efficiency and setting a new technological benchmark for the industry. Company Statement: Continuous Innovation-Driven Development and Deepening Commitment to Hydrogen Energy Equipment Pan Yongle, CEO of Mingyang Hydrogen, stated that this certification is the result of the team’s technological breakthroughs. The company will continue to uphold the philosophy of “innovation-driven, green future,” further increase R&D investment, launch more high performance products, provide global clients with high-quality hydrogen energy solutions, and support the industry’s high-quality development.

[SMM Hydrogen Energy Brief] On March 16, Guofu (Jinan) Hydrogen Energy Technology Development Co., Ltd. was established with a registered capital of 2 million yuan, and its legal representative is Ding Leizhe. Equity information shows that the company is 80% held by Jiangsu Guofu Hydrogen Energy Technology Equipment Co., Ltd. and 20% held by Zhejiang Lingniu Yishi New Energy Technology Co., Ltd.