[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.

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.

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.

On the morning of March 10, the unveiling ceremony and construction launch meeting for the Shanghai Key Laboratory of Efficient Green Fuel Synthesis Systems Engineering (Preparatory) were successfully held at Shanghai Boiler Works Co., Ltd. Xuan Fuzhen, President of East China University of Science and Technology, and Wu Lei, Party Secretary and Chairman of Shanghai Electric Group, jointly unveiled the laboratory, marking the official entry of the key laboratory’s development into a new stage of substantive progress. Zheng Guanghong, Second-Level Inspector of the Shanghai Municipal Science and Technology Commission, witnessed the ceremony on site. Led by Shanghai Boiler Works Co., Ltd. and jointly established with East China University of Science and Technology, the laboratory focuses on tackling critical “bottleneck” technological challenges in the application field of efficient synthesis of green fuels such as green methanol, green ammonia, and sustainable aviation fuel (SAF). It has precisely laid out three core research directions: efficient synthesis of diversified green fuels, high-efficiency clean power equipment, and AI + digital twin flexible regulation and control. It is committed to building a full-chain innovation system spanning basic R&D, pilot-scale verification, and industrialisation, thereby supporting breakthroughs in green fuel technologies and their industrial application. Wu Lei, Party Secretary and Chairman of Shanghai Electric Group, stated at the event that the high-standard development of the key laboratory for green fuels is an important practice for Shanghai Electric in implementing the national development strategy for new quality productive forces in the energy sector and promoting the deep integration of green fuel technological innovation with industry. Shanghai Electric will use the laboratory’s development as an important lever, providing comprehensive support in policy, resources, funding, and other aspects, fully integrating high-quality internal and external resources, and making every effort to advance technological research, professional talent cultivation, and the commercialisation of scientific research achievements, thereby contributing wisdom and strength to the high-quality development of China’s green fuel industry. Xuan Fuzhen, President of East China University of Science and Technology, pointed out that the university will give full play to its disciplinary strengths, carry out close and pragmatic cooperation with Shanghai Electric, vigorously promote the deep integration of industry, academia, and research, focus on core challenges in green fuel synthesis technologies and equipment, strive to achieve major technological breakthroughs, and work together to build a benchmark for collaborative innovation among industry, academia, and research. Jin Xiaolong, Member of the Party Committee and Vice President of Shanghai Electric Group, Vice President Qiu Jiayou, and relevant leaders from the Shanghai Municipal Science and Technology Commission, East China University of Science and Technology, and Shanghai Electric Power Station Group attended the event.

Strait of Hormuz disruptions and Iran tensions are driving up aluminum prices and premiums. Aluminium Bahrain and Qatalum have cut output, while feedstock is tight. Rerouting via Port of Sohar or Saudi ports raises costs and delays. Buyers are turning to China, India, Russia, Canada, and scrap to offset risk. Prolonged disruption could reduce Middle East market share and reprice it as higher-risk supply.

SMM News: Following our previous analysis of the transportation and wind power sectors, this installment shifts focus to the critical demand drivers in the consumer and construction domains: White Goods , Consumer Electronics , and Real Estate-related applications (Elevators and Power Tools). While these sectors individually consume less magnetic material per unit compared to New Energy Vehicles (NEVs), their sheer aggregate volume makes them indispensable pillars of the Neodymium-Praseodymium (Pr-Nd) market. However, data from early 2026 reveals a troubling trend of stagnation and structural contraction across these traditional strongholds. I. White Goods: The Dual Pressure of Production Slumps and Material Substitution In the white goods sector, Neodymium-Iron-Boron (NdFeB) magnets are primarily utilized in two key applications: compressors for inverter air conditioners and motors for drum and impeller washing machines . 1. Air Conditioners: A Sharp Contraction in Output and Dosage According to data from the National Bureau of Statistics (NBS), China’s cumulative air conditioner production for January-February 2026 stood at 40.118 million units , a staggering 35% year-on-year (YoY) decline compared to the 61.921 million units produced in the same period of 2025. (Reason: This drastic drop is attributed to a combination of factors: firstly, an unusually mild winter across major consumption regions significantly dampened heating demand, leading to a destocking cycle among distributors. Secondly, the real estate sector’s continued downturn has severely curtailed new housing completions, directly reducing the installation of centralized and split AC systems. Lastly, high inventory levels carried over from 2025 forced manufacturers to aggressively cut production schedules in Q1 2026 to avoid capital lock-up.) Looking at the full year, SMM forecasts a marginal growth of 0.96% for 2026, with total annual production projected at 271.095 million units . (Reason: The near-flat growth outlook reflects a mature market saturation where replacement demand, rather than new installations, drives volume. While export markets offer some resilience against domestic weakness, rising trade barriers and logistical costs in key regions like Europe and North America are expected to cap significant expansion.) Applying SMM’s calculation model: Inverter Penetration: 99% NdFeB Motor Penetration: 92% Specific Consumption: Assumed at 100g/unit for 2026. Based on these parameters, the total NdFeB consumption for the air conditioner sector in 2026 is estimated at 24,691 tons , representing a 23% decrease from the 29,163 tons consumed in 2025. The core driver of this decline is twofold: first, the persistently high prices of Pr-Nd since the second half of 2025 have accelerated the industry’s cost-reduction initiatives. Second, there is a clear technological shift towards minimizing rare earth usage. The average single-unit dosage has dropped from 120g/unit in 2025 to 100g/unit in 2026 , as manufacturers optimize motor designs and, in some lower-end models, substitute with ferrite magnets or induction motor technologies where efficiency standards allow. 2. Washing Machines: A Slow Erosion of Demand For January-February 2026, China’s cumulative washing machine production was 18.58 million units , a slight 0.3% YoY decline from the 18.51 million units in the same period of 2025. (Reason: The stability in production volumes masks underlying weakness. The slight dip is primarily due to weak consumer confidence impacting discretionary spending on home appliance upgrades. Furthermore, the export market for washing machines has faced headwinds from sluggish global economic growth and intensified competition from Southeast Asian manufacturing hubs, offsetting modest domestic recovery efforts.) SMM projects a full-year growth rate of 3.1% for 2026. (Reason: This modest recovery is underpinned by government-led "trade-in" subsidy policies aimed at boosting domestic consumption of energy-efficient appliances. Additionally, product innovation in the high-end segment, such as washer-dryer combos and smart features, is expected to stimulate some replacement demand, though the overall ceiling remains low.) Demand Calculation Logic: Drum Washer Penetration: 63% (High-end, 98% use NdFeB) Impeller Washer Penetration: 28% (Mid-range, 50% use NdFeB) Specific Consumption: 290g/unit for drum washers; 240g/unit for impeller washers. Under this model, the total NdFeB demand for washing machines in 2026 is estimated at 27,204.52 tons , a 0.2% decrease from 27,262 tons in 2025. The sector is experiencing a slow but steady erosion of demand. While high-end drum washers rely heavily on efficient NdFeB motors to meet stringent energy labels, the volatility of rare earth prices is prompting manufacturers to cautiously explore alternative motor designs or reduce magnet grades in non-critical applications. Consequently, the industry has adopted a strategy of gradual reduction rather than abrupt substitution, balancing performance requirements with cost control. Outlook: The trajectory for white goods in 2026 is undeniably pessimistic. Both production volumes and technical intensity (dosage per unit) are trending downward, creating a double drag on Pr-Nd demand. II. Consumer Electronics: Volume Resilience vs. Intensity Decline The consumer electronics sector, modeled by SMM, comprises four main segments: Mobile Phones , Tablets , Desktops/Laptops , and Smartwatches . These devices utilize NdFeB primarily for acoustic components (speakers/receivers) and haptic feedback motors, with emerging uses in magnetic charging interfaces. The specific consumption is generally low, ranging from 2-5g/unit , except for desktops which average 15g/unit . Market Performance (Jan-Feb 2026): Mobile Phones: 220 million units (+6.8% YoY). Micro-computer Equipment: 41.956 million units (-31% YoY). Breakdown: 21% Tablets, 27% Desktops, 52% Laptops. Smartwatches: 8.196 million units (+7.8% YoY). (Reason: The divergence in performance is stark. Mobile phone growth is driven by the global rollout of AI-enabled handsets and the replacement cycle for 5G devices, particularly in emerging markets. Conversely, the sharp collapse in micro-computer equipment reflects the post-pandemic normalization of demand; the massive stockpiling of devices during 2020-2022 has led to a prolonged digestion phase. Additionally, extended device lifespans due to improved hardware durability have further suppressed replacement rates for PCs and tablets.) 2026 Full-Year Forecast: SMM anticipates a 1% growth for mobile phones and micro-computers combined, and a 5% growth for smartwatches. (Reason: The muted outlook for computing devices stems from persistent macroeconomic uncertainty and corporate IT budget tightening. For smartwatches, growth is fueled by increasing health-monitoring capabilities and deeper ecosystem integration with smartphones. However, the entire sector faces a cloud of uncertainty due to escalating geopolitical tensions affecting supply chains and rising memory chip prices, which may force OEMs to revise production targets downward later in the year.) Demand Estimation: Mobile Phones: 3,109.8 tons Micro-computers: 2,018.9 tons Smartwatches: 125.06 tons Total 2026 Demand: 5,253.76 tons , a 3% decline from 5,421.19 tons in 2025. The primary driver for this decline is the continuous, albeit slow, reduction in specific consumption. As miniaturization advances and alternative magnetic materials improve, the amount of NdFeB required per device is shrinking. Despite the relatively low single-unit dosage, the massive scale of the consumer electronics industry ensures it remains a significant consumer of NdFeB. Moreover, this sector is characterized by highly standardized supply chains, where major OEMs maintain binding agreements with certified magnet suppliers, making demand relatively stable but resistant to price-driven spikes. III. Real Estate Related: Elevators and Power Tools The final segment covers industries tightly coupled with the real estate cycle: Elevators and Handheld Power Tools . 1. Elevators: Policy Support vs. Structural Headwinds In January-February 2026, elevator production reached 150,000 units , a 7.1% YoY increase . (Reason: This short-term surge is largely attributable to the acceleration of projects that were delayed in late 2025, as developers rushed to meet pre-delivery deadlines before stricter regulatory inspections took effect. Additionally, government mandates for retrofitting old residential communities with elevators in urban renewal zones provided a temporary boost to order books.) However, SMM forecasts a full-year contraction of -3% for 2026. (Reason: The long-term outlook is grim due to the fundamental slowdown in new residential construction starts, which remain at multi-year lows. The debt crisis plaguing major property developers continues to stall new project launches, directly impacting the demand for new elevator installations. While the retrofit market offers some support, it is insufficient to offset the collapse in new building commissions.) Calculation: Energy-saving Elevator Penetration: 90% Specific Consumption: 6 kg/unit (for energy-saving models). Total 2026 Demand: 7,222.6 tons , a 1.3% increase from 7,125.3 tons in 2025. (Reason for Growth: The slight increase in total tonnage despite falling production volumes is entirely driven by the rising penetration of energy-saving elevators. Stricter national energy efficiency standards (GB standards) are forcing manufacturers to adopt permanent magnet synchronous motors (PMSM) over traditional asynchronous motors, thereby increasing the average NdFeB dosage per unit even as the total number of units declines.) 2. Handheld Power Tools: A Direct Casualty of Property Slump Production of handheld power tools in Jan-Feb 2026 was 29.566 million units , down 0.24% YoY . SMM projects a -3% decline for the full year 2026. (Reason: The downturn is inextricably linked to the stagnation in the global and domestic real estate markets. Reduced renovation activities and a slowdown in infrastructure projects have dampened demand for professional-grade tools. Furthermore, high inventory levels in distribution channels across North America and Europe, resulting from over-ordering in 2024, have led to a prolonged period of destocking.) Definition & Scope: According to the National Bureau of Statistics, handheld electric tools refer to portable motor-driven tools operated by hand, including electric drills, grinders, sanders, saws, and screwdrivers . These products are highly sensitive to housing turnover and renovation rates. Demand Calculation: NdFeB Penetration: 60% Specific Consumption: 80g/unit Total 2026 Demand: 9,134 tons , a sharp 13.4% drop from 10,548 tons in 2025. The significant contraction in this sector underscores the deep correlation between the property market and industrial metal demand. As the real estate sector remains in a prolonged adjustment phase, the downstream demand for power tools—and consequently NdFeB—faces sustained pressure. Conclusion The analysis of white goods, consumer electronics, and real estate-related sectors paints a picture of structural weakness for 2026. While niche policy drivers (like energy-saving elevator mandates) provide isolated pockets of growth, the overarching trends are defined by production saturation, inventory destocking, and aggressive material substitution . The combined effect of lower production volumes and reduced single-unit dosages creates a formidable headwind for Pr-Nd prices. In the final installment of this series, we will pivot to the future: examining the burgeoning demand from Low-Altitude Economy (eVTOLs), Robotics (Industrial and Service), and the relentless expansion of Electric Two-Wheelers . These emerging sectors may hold the key to offsetting the declines observed in traditional industries and reshaping the long-term demand curve for rare earth magnets.

Jan-Feb 2026 China magnesium exports reached 72.7kt, up 3.4kt YoY. Magnesium alloy led with +33.1% YoY, orders booked through April. Magnesium ingot fell 6.8% due to weak European demand, while powder grew 10.3%. However, US-Israel conflict disrupted Middle East aluminum plants, halting regional magnesium orders and pressuring Q2 outlook despite the strong start.

Combined for January and February 2026, China’s cumulative chrome ore imports reached 4.0144 million tons, up 13.2% year-on-year. Breakdown by origin: imports from South Africa were 3.2422 million tons (up 6.2% year-on-year), imports from Turkey were 184,700 tons (up 55.8% year-on-year), and imports from Zimbabwe were 400,000 tons (up 70.3% year-on-year).

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, with no new capacity added. No offline delivery information was available this week. Project-related updates: Guohua (Ningxia) New Energy Co., Ltd.: A price inquiry procurement was issued for the pre-feasibility study report preparation service for the Guohua Ningxia 100,000-mt Green Hydrogen Energy Supply Base Project (chemical section). It was understood that the Ningdong water electrolysis hydrogen production project of Guohua Ningxia had already put into operation a scale of 20,000 Nm³/h, with 6,000 Nm³/h under construction. Datang Inner Mongolia Duolun Coal Chemical Co., Ltd.: An inquiry-based procurement was launched for the feasibility study and green methanol certification consulting technical services for the CNCEC Duolun Coal Chemical coal-based process biomass co-firing coupled with green electricity green methanol production project. It was understood that the Datang Duolun 150,000-kW wind and solar power hydrogen production integrated demonstration project was China’s first medium-to-large-scale technology demonstration project for off-grid wind and solar power hydrogen production deeply coupled with coal chemical engineering. It was invested in and constructed by Datang Duolun Ruiyuan New Energy Co., Ltd., with a total investment of approximately 1.3 billion yuan. Construction officially began in November 2023, hydrogen was successfully produced on December 29, 2024, and it was formally connected to grid and put into operation on January 17, 2025. Shaanxi Construction Installation Group Co., Ltd.: The Guyang-Baiyun Obo gas transmission pipeline project, undertaken by Shaanxi Construction Installation Group, reached a major milestone, with its Guyang initial station and valve chamber having successfully passed completion acceptance. It was reported that the gas transmission pipeline project has a 20% hydrogen blending transmission capacity and is a key planned construction project under the “county-to-county coverage in western Inner Mongolia” initiative in the Inner Mongolia Autonomous Region’s 14th Five-Year Plan for oil and gas development. The pipeline has a total length of 125 km, starting from the Guyang initial station and generally running from south to north, successively passing through Guyang County, Darhan Muminggan Banner, and the Baiyun Obo mining district in Baotou City, and ultimately reaching Barun Industrial Park. Jiamusi Hanya New Energy Co., Ltd.: The Jiamusi Hanya wind power hydrogen production synthetic green methanol integrated project was filed. The project is located in Heilongjiang Province, with a total investment of 4 billion yuan. Construction scale and contents: mainly the construction of a 300,000-mt green methanol production unit and a thermal energy storage unit, with a planned land area of approximately 350,000 m². Windey Energy Technology Group Co., Ltd.: The list of winning candidates was announced for the biomass gasification process package and technical services project for the first-phase Handan Biomass Green Methanol Project. The top-ranked winning candidate was East China Engineering Science and Technology Co., Ltd. It was understood that East China Engineering has extensive experience in the gasification field, with experience in the design, construction, EPC general contracting, commissioning, and operation of more than 100 gasifiers, covering various mainstream processes such as fixed bed, fluidized bed, and entrained-flow bed. Zhongqing Xinneng (Baotou) Equipment Co., Ltd.: The annual production project for 100,000 hydrogen storage cylinders for hydrogen two-wheelers was filed. The project is located in Kundulun District, Baotou City, Inner Mongolia Autonomous Region. It plans to build a production line with an annual capacity of 100,000 hydrogen storage cylinders for hydrogen two-wheelers, including production workshop renovation and supporting utilities. Annual output value will reach 100 million yuan. The planned construction period is from April 2026 to September 2026. Shenneng North (Otog Banner) Energy Co., Ltd.: The change to the 30 MW-class pure hydrogen gas turbine hydrogen energy storage demonstration project under the Otog Banner integrated wind and solar power hydrogen production and green ammonia synthesis project was filed. After the change, the project site is located in the eastern project area of the Ordos Otog Economic Development Zone, within Shenneng's water electrolysis hydrogen production station in Ordos City, Otog Banner, bounded to the north by the green hydrogen-to-green ammonia project under the Otog Banner integrated wind and solar power hydrogen production and green ammonia synthesis project, to the east by Jingsan Street, to the west by Jinger Street, and to the south by Weisi Road. Construction scale and content: the project covers an area of 500 sq m, of which the hydrogen gas turbine occupies 300 sq m. As a hydrogen energy storage demonstration project, it includes one 30 MW pure hydrogen gas turbine, generator, hydrogen storage equipment, and supporting facilities. Through wind and solar power generation and water electrolysis for hydrogen production, the project has a total hydrogen storage capacity of 360,000 Nm³, an effective hydrogen storage volume of 270,000 Nm³, and is equipped with 12 spherical hydrogen storage tanks, each with a water capacity of 1,875 m³. Jiyuan (Siping) Green Energy Co., Ltd.: The EPC tender for the hydrogen production works of the SPIC Green Energy Lishu wind and solar power hydrogen production, biomass-coupled green methanol project was released. It is understood that the project is located in the chemical park of the Siping New-type Industrialized Economic Development Zone, Lishu County, Siping City, Jilin Province. It adopts a green hydrogen coupled with biomass gasification process to synthesize 197,200 mt/year of methanol, started construction in August 2025, and is expected to be commissioned in September 2027. The project includes three hydrogen production workshops. Workshops No. 1 and No. 2 each are arranged with 12 sets of 1,000 Nm³/h alkaline electrolytic hydrogen production electrolyzers plus three sets of 4,000 Nm³/h hydrogen purification units; Workshop No. 3 is arranged with four sets of 1,000 Nm³/h alkaline electrolytic hydrogen production electrolyzers plus one set of 4,000 Nm³/h gas-liquid separation unit, among others. Sinopec Sales Co., Ltd. Tibet Petroleum Branch : The tender notice for Section I of the general construction contracting project for the Shannan hydrogen-oxygen combined supply project was released. The construction site is in Naidong District, Shannan City, Tibet Autonomous Region; the planned construction period is 180 days; the estimated contract value for the section is 27.23 million yuan (tax included); the hydrogen production portion of the section tender includes an IGBT rectifier and control system skid, hydrogen production skid, oxygen purification unit, pure water machine and chiller unit skid, and related supporting facilities, while the hydrogen refueling portion includes a 35 MPa dual-nozzle hydrogen dispenser, 45 MPa hydrogen compressor skid, 45 MPa hydrogen storage cylinder bank, and sequence control panel. Ming Yang Smart Energy Group Co., Ltd.: It held a signing ceremony at Ming Yang Group headquarters for the hydrogen-fueled gas turbine complete-unit R&D and manufacturing project with the People's Government of Hudai Town, Binhu District, Wuxi City, Jiangsu Province, with both parties formally reaching a strategic cooperation agreement. Sichuan Zhongke Hydrogen Energy Technology Co., Ltd. : First Public Notice of Environmental Impact Assessment Information for Phase II of the Integrated Energy Station Project Featuring Hydropower, Wind and Solar Power, Hydrogen, and Natural Gas Multi-Energy Complementarity. According to the document, Phase II of the integrated energy station project featuring hydropower, wind and solar power, hydrogen, and natural gas multi-energy complementarity is located in Nanchong High-tech Zone, with Sichuan Zhongke Hydrogen Energy Technology Co., Ltd. as the project developer. It will build an integrated hydrogen production and refueling station, along with supporting public utility facilities, to realise the hydrogen refueling function of the integrated energy station for hydrogen-powered vehicles, and will also build one hydrogen energy industry R&D production site. GRINM Engineering Institute Co., Ltd. : The new materials pilot platform in Huairou Science City completed final acceptance upon completion, and four key pilot lines, including solid-state hydrogen storage and ceramic co-firing materials, entered the stage of commissioning and line integration. Among them, the total investment in the solid-state hydrogen storage project is 14.5 million yuan, and the total investment in the ceramic co-firing materials project is 12 million yuan, which will support the commercialisation of new material achievements and the industrialisation of hydrogen energy and key electronic materials. Policy Review​ 1. The Ministry of Industry and Information Technology, the Ministry of Finance, and the National Development and Reform Commission (NDRC) issued a notice on carrying out pilot work for the comprehensive application of hydrogen energy. The document states that by 2030, hydrogen energy in city clusters is expected to achieve large-scale application across diverse fields, and the average price of hydrogen for end-use is expected to fall below 25 yuan/kg, with efforts to reduce it to around 15 yuan/kg in certain advantaged regions; national fuel cell vehicle ownership is expected to double from the 2025 level, with efforts to reach 100,000 units. Through the expansion of application scale, it will promote innovative breakthroughs in hydrogen energy application technologies, processes, and equipment, realise iterative upgrades of fuel cells, electrolyzers, storage and transportation devices, and materials, and promote hydrogen energy as a new economic growth driver to support a comprehensive green transformation of economic and social development. 2. The People's Government of Hunan Province issued the Hunan Province 2026 Plan for National Economic and Social Development. The document states that efforts will be made to advance the circular economy and cleaner production and build a number of zero-carbon parks and zero-carbon factories. It is expected to accelerate the green and low-carbon transformation of the energy system, optimise the management of new energy project pipelines, and speed up the construction of key wind and solar power projects. It will expand green energy consumption scenarios and implement a three-year doubling plan for the service capacity of charging facilities. It will also actively develop the hydrogen energy industry and expand the scale of natural gas utilisation. 3. With the approval of the National Energy Administration, the Standardization Technical Committee for Hydrogen Energy in the Energy Industry was established in Beijing. The establishment of this committee was intended to improve the industry standards system, lead technological innovation, and regulate market order. Enterprise Developments Haida Qingneng Ship (Dalian) Co., Ltd.: The nation's first inland 64-TEU hydrogen fuel cell-powered container vessel, Dongfang Qinggang, for which it supplied the powertrain, successfully completed its first long-distance trial voyage. The entire system operated stably, the navigation performance was excellent, and the trial voyage was a complete success. Hydrogen Power (Beijing) Technology Services Co., Ltd.: 100 hydrogen-powered refrigerated trucks were officially delivered to Hydrogen Cheng Times and will be operated by Hydrogen Power Technology as the agent. Rongcheng New Energy Group: Successfully delivered 50 hydrogen-powered heavy trucks to Cangzhou Huagang International Logistics Co., Ltd. This batch of vehicles will be put into service on the transport route from Huanghua Port to the Shandong Lubei Aluminum Industry Base. CSSC Engine Co., Ltd.: Its WinGD6X72DF-A-1.0 ammonia-fueled low-speed engine successfully passed functional integration approval and bench testing, and was successfully delivered in Qingdao. It is understood that this was the first ammonia-fueled marine engine in China to be formally delivered as a commercial product. Aerospace Engineering Company: Signed contracts for two major green hydrogen engineering projects in succession, namely the hydrogen refueling station water electrolysis hydrogen production project of Zhongqing Energy Development (Shandong) Co., Ltd., and the electrolytic hydrogen production unit project for the Inner Mongolia Fenglü green hydrogen-coupled coal-to-olefins project. For these two projects, Aerospace Engineering Company will provide a total of 16 sets of HTJSDJ-1000/1.6 alkaline electrolyzers, together with supporting post-processing systems and utility engineering equipment, and will be responsible for engineering design. This cooperation marked Aerospace Engineering Company's simultaneous breakthroughs in the two major fields of green transportation and green hydrogen chemicals. Qinghang Times (Shenzhen) Technology Co., Ltd. : Qinghang Times was established on January 5, 2026, with a registered capital of 1 million yuan and legal representative He Rongjie. Founded by a Tsinghua University master's and doctoral team, it received support from Tsinghua entrepreneurship and innovation platforms including Tsinghua i-Space and Tsinghua Chuang+, and was selected for the Sci-Tech Innovation Light "Future Tech Innovators Program." With a technical solution combining liquid hydrogen storage and a high-temperature PEM hydrogen-electric coupling system, it increases aircraft driving range by more than 10 times and payload capacity by 2-3 times. Recently, it completed seed-round financing of several million yuan, with the investor undisclosed. Shenzhen Hydrogen Zhi Energy Co., Ltd.: Completed A+ round financing, with Shenzhen Energy Investment as the investor. Anhui Mashui New Energy Technology Co., Ltd. : Anhui Mashui Technology completed A-round financing of over 100 million yuan, led by NIO Capital. This round of funding will be used primarily to fulfill large orders, increase R&D reserves, support new factory construction, and cover daily operations, so as to drive the integration and upgrading of the industry chain. China Energy Engineering Corporation Research Institute: The kick-off meeting for the international standard High-Pressure Liquid Hydrogen Pump for Hydrogen Refueling Stations, led and submitted by the Low-Carbon Institute, was held online. Since the standard was approved for project initiation in November last year, this meeting clarified the advancement plan and technical roadmap, bringing together 20 experts from China, the United States, Germany, France, Russia, Japan, and the European Industrial Gases Association, who reached consensus on core issues such as the standard’s scope and application scenarios, thereby laying a solid foundation for the high-quality and timely delivery of the standard. Jiangsu Guofu Hydrogen Energy Equipment Co., Ltd. : A delegation from Thailand’s water, electricity, and related institutions came to China for exchanges on the new energy industry and made a special trip to Zhangjiagang, Jiangsu, to visit the rooftop PV hydrogen production project jointly developed by Zonergy and Guofu Hydrogen Energy. It was understood that the project relied on a distributed PV system installed on factory rooftops and used PV power generation to provide clean and stable electricity for enterprise production and energy applications, balancing efficient energy utilization with green development; at the same time, it integrated hydrogen energy application scenarios and was equipped with an ESS to ensure a stable energy supply for hydrogen production. It is a leading distributed PV hydrogen production demonstration project in China by scale, showcasing China’s advanced achievements in the integrated development of PV and hydrogen energy. Beijing SinoHytec Co., Ltd.: Signed a strategic cooperation agreement with Haitai Solar and the Hebei Hydrogen Energy Society, relying on the National Energy Administration’s first batch of hydrogen energy pilot policies and centering on the Zhangjiakou-Chengde-Tangshan hydrogen energy regional pilot to advance the deep integration of “government, industry, academia, research, and application.” The three parties will focus on the Kangbao-Caofeidian long-distance hydrogen pipeline with annual hydrogen transmission capacity of 1.55 million mt, creating a “hydrogen production in Zhangjiakou and Chengde, application in Tangshan” model. Haitai Solar will provide SinoHytec with a stable hydrogen supply and storage and transportation services, addressing the industry’s high storage and transportation costs and supporting high-quality regional hydrogen energy development and the implementation of the “dual carbon” goals. The Sixth Academy of China Aerospace Science and Technology Corporation: Released four new hydrogen energy products in Beijing, including an onboard liquid hydrogen system, liquid hydrogen refueling equipment, a liquid hydrogen tank container, and an alkaline electrolyzer, and also released a blue book on the hydrogen energy industry to help build the hydrogen energy industry ecosystem. Beijing Hydrosys Technology Co., Ltd.: Its self-developed hydraulic-driven hydrogen compressor underwent rigorous assessment and passed EU CE certification. Patent Applications 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences (China) disclosed patent CN2025110028 and developed a ceramic-based anion exchange membrane, with a laboratory-tested service life of up to 80,000 hours. 2. Johnson Matthey (UK) filed patent WO2025109876, disclosing an Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity close to that of platinum-based materials. Technology Footprint/Technical Specifications 1. A joint team from Xi’an Jiaotong University and Peking University jointly conducted R&D on a new-type osmium-based catalyst, significantly improving the efficiency and economics of hydrogen production via AEM water electrolysis and supporting the large-scale deployment of low-cost green hydrogen. 2. Johnson Matthey and Syensqo achieved efficient recycling and reuse of platinum group metals and ionomers in PEM fuel cells and electrolyzers, significantly reducing the carbon footprint. 3. Relevant research teams from the School of Electrical Engineering at Xi’an Jiaotong University and the State Key Laboratory of Electrical Materials and Electrical Insulation successfully developed the Ru/Ti3C2Ox@NF bifunctional electrocatalyst for seawater electrolysis. 4. The group standard Technical Specification for Hydrogen Production by Coupled Electrolysis with Wind and Solar Power, PV+ESS, and Green Electricity (No. T/CIEP 0272—2025) was released and implemented by the China Industrial Environmental Protection Promotion Association. Zhongneng Dayou Energy Technology Co., Ltd. successfully developed a 100 kW-class PEM electrolyzer hydrogen production multi-field coupling test device. 5. GKN Powder Metallurgy announced that it has developed a next-generation high performance, high-porosity, high-purity porous transport layer (HP-PTL) for proton exchange membrane (PEM) electrolysis.

[SMM Tungsten Daily Review: Slight Price Collapse in the Scrap Tungsten Market, Ore and Upstream Smelting Products Consolidated Sideways] SMM News, March 23 In the short term, prices across the tungsten industry chain still showed divergence between primary and recycled materials. China was currently in a transition period marked by tightening supply on the raw ore side and a rising utilization rate of recycled materials. Smelters still needed some time to adjust their restocking practices and complete the adaptation and transition from a long-term contract pricing model led by the ore side to a scrap tungsten market procurement model featuring higher-frequency transactions and greater sensitivity to sentiment.