On June 7, 2026, as a future industry prioritized in the national 15th Five-Year Plan, hydrogen energy serves as a core lever for optimizing the energy structure and implementing the dual carbon strategy. Since the start of this year, Hami City has leveraged its abundant wind and solar new energy resources and ample by-product hydrogen from coal chemical industries as dual resource advantages, targeting the development as Xinjiang’s first hydrogen energy industry demonstration zone and a hydrogen equipment manufacturing hub in western China. The city has continuously clustered high-quality resources across the hydrogen industry chain, accelerating the creation of an integrated full-chain industrial ecosystem covering production, storage, transport, refueling, and utilization, with the momentum for high-quality regional hydrogen industry development continuing to climb. On the equipment manufacturing front, breakthroughs have been achieved in local hydrogen core capacity construction. In Yiwu County, Hami, the large-power hydrogen fuel cell system production line of Xinjiang Kunhua New Energy Technology Co., Ltd. has achieved stable operation and reached production. The project, with a total investment of 150 million yuan, adopts an industry-leading large-power, single-stack, single-system technology pathway to mass-produce fuel cell systems and hydrogen energy storage power generation equipment across a power range of 150 kW to 250 kW. Its products are widely adapted for diverse application scenarios such as mining engineering machinery, urban sanitation, and port operations, filling a gap in high-end hydrogen equipment manufacturing in Xinjiang. Targeting the extreme and demanding operating conditions in the northwest plateau, characterized by high altitude, severe cold, and heavy loads, the enterprise has completed multiple rounds of specialized technical breakthroughs, successively conducting rounds of extreme environment tests across two winters, two summers, and two plateaus. Its equipment can achieve cold start at -30℃ and the overall system lifespan exceeds 20,000 hours, with operational stability and environmental adaptability fully validated. The R&D team continuously collects local mountain road condition and meteorological data to optimize system control strategies, and leverages Hami’s natural test scenarios of clustered coal industries and dense mining transport routes to complete scenario-based customization and upgrades. This ensures the equipment fully meets local complex operational requirements, forming a synergistic pattern of coordination and co-development with existing hydrogen refueling infrastructure. Huang Huanqing, General Manager of Xinjiang Kunhua New Energy Technology Co., Ltd., stated that the company will continue to empower industrial upgrades through technological innovation, collaborating with universities and research institutes to tackle core technologies for high-cold adaptation. Going forward, new projects will be implemented, including a 135-mt hydrogen-powered autonomous mining truck production line, hydrogen energy storage power generation, and hydrogen-powered two-wheelers , further extending the hydrogen equipment manufacturing industry chain. Leveraging the local comprehensive hydrogen refueling support system, these moves will address shortcomings in the full-chain hydrogen development and drive the scaled, green transformation and upgrade of the hydrogen industry in Yiwu. As Hami’s designated "hydrogen city," Yiwu County has established four integrated hydrogen production and refueling stations and deployed hundreds of hydrogen heavy trucks at scale, forming the largest hydrogen transport application scenario in Xinjiang. It is reported that upon reaching full production, the fuel cell system project is expected to achieve an annual output value of 150 million yuan and annual tax revenue of 15 million yuan , while also attracting agglomeration of core parts enterprises producing compressors, hydrogen storage systems, and humidifiers, gradually localizing the production of key components for hydrogen equipment and improving the regional hydrogen industry support system. In the long term, the company will use Hami as a core hub, radiating to energy corridors like Jiuquan, Ningdong, and Zhundong along the Belt and Road initiative, supporting the construction of a northwest hydrogen equipment manufacturing hub, promoting the integrated development of wind power, PV, energy storage, and hydrogen, enhancing regional green electricity consumption capacity, and facilitating carbon neutrality in the transport sector. The dual advantages of resource endowment and industrial foundation lay a solid groundwork for Hami’s hydrogen industry development. Locally, wind energy technical developable capacity reaches 300 GW, and solar energy technical developable capacity reaches 3.2 billion kW. The city’s total installed power generation capacity stands at 51,489.8 MW, with new energy accounting for as much as 73.84% of the installed capacity , providing ample clean energy support for large-scale green electricity hydrogen production. Meanwhile, leveraging its mature coal chemical industry system, Hami has the production capacity potential for 180,000 mt of purified vehicle-grade hydrogen annually, forming a dual-wheel complementary supply pattern of green hydrogen and grey hydrogen , effectively lowering the operating costs of fuel cell vehicles and offering economic advantages for scaled promotion and application. Hydrogen refueling infrastructure and end-use application scenarios are expanding and upgrading in tandem. The integrated energy station operated by Xuanli (Xinjiang) Hydrogen Energy Technology Co., Ltd. features a designed daily refueling capacity of 10 mt, positioning it as one of the leading large-scale refueling stations in China currently. Equipped with eight refueling bays, it supports simultaneous refueling for eight vehicles, with a daily average service capacity of 300 units. The station employs a 24-hour continuous production mode and can dynamically raise its production load based on vehicle refueling demand, ensuring stable hydrogen supply for heavy trucks. Currently, four refueling stations have been deployed in the Naomaohu area alone, establishing a robust hydrogen refueling support network. At the end-use application level, hydrogen heavy trucks, with their advantages of zero emissions and high efficiency, have become the main driver for regional green logistics transformation. Driven by the electrochemical reaction of hydrogen and oxygen, hydrogen heavy trucks operate combustion-free and with zero carbon emissions throughout. Hydrogen consumption per 100 km stabilizes at 15 to 18 kg, while the driving range exceeds 300 km, delivering significant transport efficiency advantages. Leveraging Hami’s positioning as a core hub for coal transport from Xinjiang, the area’s daily active heavy truck volume is approximately 50,000 units, spawning a trillion-yuan hydrogen heavy truck application market. Currently, 175 hydrogen heavy trucks have been deployed locally, with the number expected to expand to over 200 within the year, and the total deployment volume nearing 500 units by end-2026 . These primarily cover trunk coal transport scenarios, while a 600-km long-demonstration route from Naomaohu to Guazhou has been initiated, continuously expanding the boundaries of hydrogen transport applications. Policy support continues to unleash industrial vitality. Hami took the lead across Xinjiang in breaking through restrictions on hydrogen production at non-chemical industrial parks, liberalizing permissions for integrated hydrogen production and refueling station construction, and introduced dedicated hydrogen industry support policies in 2025, using targeted subsidies to facilitate infrastructure development and hydrogen vehicle operation promotion. To date, the city has built one scaled hydrogen production plant with a capacity of 25 mt/day and four refueling stations, with an overall daily refueling scale reaching 18 mt. In total, 569 hydrogen heavy trucks and 7 hydrogen buses have been deployed, with the scale of end-use applications continuing to expand. The layout for coordinated regional development is also accelerating. Hami is collaborating with Jiuquan in Gansu to co-develop a trans-provincial hydrogen expressway and hydrogen corridor spanning Xinjiang and Gansu, with plans to open dedicated hydrogen transport lanes on National Highway G331 and the G7 Expressway by 2030, at which point the regional deployment of hydrogen vehicles is expected to exceed 2,000 units. Meanwhile, a local hydrogen energy industry research institute has been established, focusing on technological exploration in frontier fields including hydrogen-electricity integrated microgrids, green ammonia co-firing, and hydrogen energy storage, and laying out developments for net-zero industrial parks and smart energy cities, thus comprehensively broadening the diverse application scenarios for hydrogen energy. According to the development plan, by 2030, Hami is expected to build a green hydrogen consumption capacity exceeding 500,000 mt, relying on the intrinsic industrial advantage of producing and selling locally to construct a highly risk-resistant hydrogen industry system. Presently, Hami continues to transform its wind and solar resource advantages into industrial development benefits, steadily advancing the industrial deployment of the "West-to-East Hydrogen Transmission" initiative. The hydrogen full-chain industry is thriving, becoming the core new driver for regional economic and social green high-quality transformation.

As resource security and decarbonization become increasingly important, major economies are strengthening efforts to retain aluminum scrap. From the EU's review of export controls and the U.S. strategic asset proposal to Japan's circular economy initiatives and policies in the UAE and South Africa, these developments could reshape global scrap flows and affect secondary aluminum markets.

Against the backdrop of global energy transition and the accelerated development of the digital economy, silver—a strategic metal with both industrial and financial attributes—is undergoing profound changes across its industry chain. On one hand, demand for silver from emerging fields such as PV, NEVs, and 5G communications continues to climb, driving the industry toward high value-added and green development. On the other hand, resource constraints, technological barriers, and market fluctuations are placing higher demands on industry chain resilience, making innovation-driven, coordinated development across the entire chain an urgent priority. Dual Policy and Market Drivers Under China’s “dual carbon” goals and the global wave of ESG investment, the silver industry faces urgent demands for green production, circular utilization, and low-carbon technologies. The National Development and Reform Commission (NDRC) “14th Five-Year Plan for Circular Economy Development” explicitly calls for strengthening the recycling of precious metal resources, while international silver price fluctuations and geopolitical risks are compelling enterprises to enhance supply chain self-sufficiency and controllability. Against this backdrop, the Silver Industry Chain Innovation Conference has emerged, aiming to build a collaborative platform integrating government, industry, academia, research, and end-users, address industry pain points, and steer the sector toward high-end, intelligent, and international development. Innovation Needs and Industry Pain Points Technological Breakthroughs: Urgent breakthroughs are needed in silver purification processes, nano-silver material applications, and scrap recycling technologies to meet the demand for high-purity, low-cost silver in emerging fields such as PV silver paste and flexible electronics. Industry Chain Coordination: Information silos exist among the mining, smelting and processing, and end-use application segments, requiring digital tools to achieve optimized resource allocation and risk sharing. Green Transition: Traditional smelting processes are energy-intensive and highly polluting, necessitating the promotion of cleaner production technologies and circular economy models in response to global carbon neutrality commitments. Market Expansion: The application potential of silver in frontier fields such as hydrogen energy and quantum computing has yet to be fully tapped, calling for strengthened cross-industry cooperation and standard setting. Conference Objectives and Value With the theme “Silver Chain Innovation: Smart Future,” this conference convenes leading global silver industry chain enterprises, research institutions, financial organizations, and policymakers for in-depth dialogue on three core topics: technology R&D, supply chain optimization, and market expansion. Through the release of an industry white paper, the establishment of an innovation alliance, and the signing of major projects, the conference aims to propel the silver industry’s transition from “resource dependence” to “technology leadership,” providing key material support for the global energy revolution and the digital economy. Kunshan Shangzeqi Chemical Technology Co., Ltd. will attend this grand event to explore industry development trends with peers and jointly advance the silver industry to new heights. Click to register now for the conference—witness and take part in this momentous, far-reaching industry event, and together create a brilliant new chapter! Kunshan Shangzeqi Chemical Technology Co., Ltd. completed development of its stirring-type dry gas seal software in 2022, which can be widely applied in semiconductors, new energy, small molecule, fine chemical, pharmaceutical, fermentation and other industries. It has already been applied in photoresist projects, new energy projects, and more. Its features include zero pollution, high purity, no contact, no temperature rise, long life, easy maintenance, and insensitivity to rotational speed. This structure provides comprehensive anti-contamination solutions, fully meeting the conditions of clients with high anti-pollution requirements. Kunshan Feihong Company primarily engages in the research, development, manufacturing and application of filtration and separation equipment, drying equipment, reaction equipment, crushing and mixing equipment, and more. The company is dedicated to developing and promoting clean production, safety and environmental protection, and energy-saving and consumption-reduction technologies in the pharmaceutical and chemical industries. Drawing on years of R&D and application experience in pharmaceutical and chemical equipment, combined with extensive client feedback and integrated multi-resource advantages, we can formulate complete and applicable technical solutions tailored to enterprise needs. With outstanding product design capabilities, innovative design and production processing strengths, Feihong Company delivers safe, stable and reliable products to sectors including biomedicine, fine chemicals, food, dyeing and printing, new energy, new materials, semiconductors, and resins. Founded in 2015, Kunshan Unaike Machinery Co., Ltd. specializes in the research and development of crushing and de-agglomeration equipment for “high-end pharmaceutical” or “precious metal” applications. By incorporating advanced Japanese and European technologies, the company continuously refines its products and processes to better serve the precious metal field. Its products have already earned cooperation and recognition from numerous R&D and production organizations in China's precious metal sector. Contact Information Yu Songlei 18914968197 Long press and scan to register now 2026 SMM (7th) Silver Industry Chain Innovation Conference

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, Peric Hydrogen, a subsidiary of CSSC 718 Research Institute, exported customized integrated hydrogen production and refueling station equipment to Indonesia. Suzhou Suqing Hydrogen Production Equipment Co., Ltd. completed the shipment of a 5 MW containerized green electricity hydrogen production system, serving the first "five-in-one" integrated energy station project combining oil, gas, hydrogen, electricity, and storage in Northwest China. Project-related updates: CGN (Wuhai Hainan District) New Energy Co., Ltd. : CGN (Wuhai Hainan District) New Energy's hydrogen-based green fuel grid-connected green electricity direct-connection project (hydrogen production section) was officially registered. The project is located in the High-tech Low-carbon Industrial Park in Hainan District, Wuhai City, with a total investment of 313.6992 million yuan. The project plans to build a 22,000 Nm³/h hydrogen production facility, equipped with 22 alkaline water electrolysis units each with a capacity of 1,000 Nm³/h, along with supporting gas-liquid separation and hydrogen purification facilities, producing hydrogen with a purity of 99.999%. The construction period is scheduled from November 2026 to November 2028. Jiyuan (Siping) Green Energy Co., Ltd. : Jiyuan (Siping) Green Energy selected its affiliated party, State Nuclear Electric Power Planning Design & Research Institute, through public tender to undertake the EPC general contracting project for the hydrogen production facility, with a fixed contract price of 204.96 million yuan. The general contracting scope covers the design of the hydrogen production facility, procurement of equipment and materials excluding Party A-supplied electrolysis water complete sets of equipment and rectifier cabinets, civil construction, commissioning, operation and maintenance, and full-process warranty services, with qualified hydrogen output scheduled before August 30, 2027. Wojiang Clean Energy (Xinjiang Zhundong Economic and Technological Development Zone) Co., Ltd.: The general contracting contract for the Zhundong 2 billion m³/year coal-to-natural gas project was signed in Urumqi. The project is located in Changji Zhundong Economic Development Zone, with a total investment of 15.486 billion yuan. It is expected to commence production by the end of October 2026, with supporting output of multiple types of by-products. The project includes supporting electrolysis hydrogen production integrated with green methanol production, and plans a 650,000 mt/year CCUS carbon capture facility to be implemented in two phases, progressively achieving full green electricity coverage while simultaneously demonstrating large-scale crushed coal pressurized gasifiers to advance the scaling-up of coal-to-gas equipment. Da'an Jidian Green Hydrogen Energy Co., Ltd. : The Da'an wind and solar green hydrogen-to-ammonia integrated demonstration project issued a tender for additional equipment, planning to add one set of 1,000 Nm³/h alkaline electrolysis hydrogen production unit. The project broke ground in May 2023 and commenced production in July 2025, supported by 800 MW of wind and solar power capacity. It adopts a dual-route hydrogen production approach of 36,000 Nm³/h alkaline plus 9,600 Nm³/h PEM, with an annual output of 32,000 mt of green hydrogen and 180,000 mt of green ammonia, while simultaneously deploying two types of large-capacity hydrogen storage facilities using solid-state and organic liquid technologies. Longyuan Power Group Co., Ltd.: Longyuan Power announced the winning candidate for the procurement of 500 Nm³/h PEM electrolyzer equipment for the Zhangye Carbon Neutrality Industrial Base Wind-Solar-Hydrogen-Storage Integration Project. Dongfang Electric (Chengdu) Hydrogen Energy ranked first with a bid of 6.3 million yuan. The project is located in the Circular Economy Demonstration Park of Zhangye Economic Development Zone and is SPIC Gansu's first green electricity-to-hydrogen project. It plans to build a 22,000 Nm³/h alkaline hydrogen production main unit with supporting hydrogen storage tanks, and simultaneously construct a 2,000 Nm³/h hydrogen production pilot platform including a 500 Nm³/h PEM unit. Yanchang Petroleum Gas Group Transportation Energy Company: The hydrogen refueling demonstration station at the Fuping Service Area (North Zone) on the Beijing-Kunming Expressway, constructed by the company, successfully achieved mechanical completion and entered the commissioning phase. The station is a standardized Level 3 hydrogen refueling station equipped with an intelligent hydrogen refueling control system capable of automated operations and full-process monitoring and traceability. After commissioning, the station will primarily serve hydrogen-powered heavy trucks and intercity hydrogen buses, filling the gap in hydrogen refueling infrastructure along the Weinan section of the Beijing-Kunming Expressway and improving the hydrogen refueling network for the green freight loop from Hancheng to Fuping and Huangling. Guangdong Yuntao Hydrogen Energy Technology Co., Ltd.: Two major hydrogen energy projects of Yuntao Hydrogen Energy were launched. Its Beitai Road hydrogen refueling station was officially put into operation, becoming a new benchmark hydrogen refueling station in south China. The station is a supporting project for the Minke Park, benchmarked against the Liangtian model hydrogen refueling station. It covers an area of 3,100 m², is equipped with 4 hydrogen dispensers and 8 hydrogen refueling nozzles, with a maximum 24-hour refueling capacity of 4,000 kg, capable of serving 200 hydrogen-powered dump trucks or 400 cold chain logistics vehicles per day, further improving the vehicle hydrogen refueling network in the Greater Bay Area. Huawang (Qingdao) Hydrogen Energy Technology Group Co., Ltd. : The pre-award announcement for the hydrogen refueling station equipment procurement project of Qingdao Hydrogen Energy Industrial Park was released. Shanghai Hydrogen Maple Energy and Jiangsu Guofu Hydrogen Energy were listed as the top two candidates, with bids of 14.18 million yuan and 13.67 million yuan, respectively. The project was jointly tendered by Huawang (Qingdao) Hydrogen Energy and PetroChina Pipeline Bureau Engineering. The total project investment is 70 million yuan, with a construction cost of 14.5 million yuan. The project covers an area of 5,761 m² and plans to build a Level 3 hydrogen refueling station with a building area of 1,302 m², designed for a maximum daily 12-hour hydrogen refueling capacity of 2,500 kg, equipped with 4 units of 35 MPa hydrogen dispensers and 8 hydrogen refueling nozzles. This tender covers the full process including complete hydrogen refueling equipment, valves, automation, electrical supply, and on-site installation and commissioning. Huadian New Energy Group Co., Ltd. Fujian Branch: The Quanzhou Municipal Bureau of Ecology and Environment approved the environmental impact assessment document for Huadian Fujian's 5 MW flexible off-grid seawater hydrogen production technology research and pilot verification project. The project is constructed by Huadian New Energy Group Co., Ltd. Fujian Branch and is located at the No. 10 wind turbine site of Quanhui Wind Farm in Quanhui Petrochemical Industrial Park. As a seawater-to-hydrogen pilot project, it relies on two on-site wind turbines for power supply to conduct off-grid electrolysis seawater hydrogen production experiments. The project covers a total area of 1,683.80 m², with a total operation duration of 1,000 hours and a total investment of 18.7 million yuan, of which 1.681 million yuan is for environmental protection. The overall system consists of six major functional modules and supporting utilities. Policy Review 1. The National Development and Reform Commission (NDRC) and other departments issued a notice on the release of the Guidelines for Non-fossil Energy Electricity Consumption Accounting (Trial). The document states that coordination with energy statistics, carbon emission accounting, and other systems should be strengthened. Factors such as physical connections, electricity energy trading, and green electricity certificate and green electricity trading should be comprehensively considered to classify and clarify the rules for recognizing non-fossil energy electricity consumption and the accounting methods at the provincial (autonomous region, municipality directly under the central government, the same hereinafter) and municipal (prefecture-level) levels, as well as for electricity users. Recognition methods for non-fossil energy electricity consumption: Physical recognition. Self-generated and self-consumed electricity from non-fossil energy sources, and self-consumed electricity from new business models such as green electricity direct connection, are recognized as the non-fossil energy electricity consumption of the electricity user. Production electricity consumed by non-fossil energy power generation projects is recognized as the non-fossil energy electricity consumption of the respective power generation enterprise. Transaction recognition. This includes two recognition methods: electricity energy trading (including conventional non-fossil energy electricity trading, green electricity trading, etc., the same hereinafter) and green electricity certificate trading (including green electricity certificate transfers, etc., the same hereinafter). 2. The Jilin Provincial Energy Bureau and the Jilin Provincial Development and Reform Commission jointly issued a notice on the Implementation Plan for Accelerating the Integrated and Converged Development of New Energy in Jilin Province. Overall objectives: By 2030, integrated and converged development will become an important approach for new energy development across the province. New scenarios featuring integration and convergence will continue to emerge. The province's new energy development models will be more flexible, consumption pathways more diversified, application scenarios more abundant, and the electricity market more dynamic. More than 50 integrated and converged projects and application scenarios will be completed, providing strong support for the comprehensive green transformation of the province's economic and social development. 3. The Guangdong Provincial Administration for Market Regulation issued a public notice soliciting opinions on the Guangdong provincial local standard Operational Specifications for Integrated Hydrogen Production, Storage, and Refueling Devices (Review Draft). The document states that this standard specifies the basic requirements, personnel management, equipment and facility management, hydrogen quality management, hydrogen refueling operation management, safety management, archive management, and data recording for the operation of integrated hydrogen production, storage, and refueling devices. Enterprise Updates Tianji Hydrogen Energy Technology (Beijing) Co., Ltd. : Tianji Hydrogen Energy successively signed agreements with Jiaqing New Energy and Manst Hydrogen Energy. The three parties will conduct in-depth industry chain cooperation in green hydrogen equipment and project development. According to the agreements, the parties will cooperate in multiple dimensions including electrolyzer and post-processing system procurement, joint project bidding, and agency sales. They will also establish strict intellectual property protection and exclusive collaboration mechanisms to ensure the stability and competitiveness of cooperative projects, and jointly tackle hydrogen energy application challenges across multiple scenarios. SPIC Green Energy Co., Ltd.: Huang Qiang, Secretary of the Jilin Provincial Party Committee, conducted a survey on major project construction in Changchun and Siping. He emphasized the need to fully implement the important instructions of General Secretary Xi Jinping regarding work in Jilin, focus on building a modern industrial system and modern infrastructure system, and accelerate the advancement of major project construction. Jiangsu Trina Green Hydrogen Technology Co., Ltd. : Trina Green Hydrogen signed a strategic cooperation agreement with the Nanjing Institute of the Fifth Electronics Research Institute of MIIT. The two parties will focus on the urgent needs for high-quality development of the PV+ESS+hydrogen industry, and conduct in-depth collaboration across five major areas: joint construction of a comprehensive PV+ESS+hydrogen testing platform, joint research on cutting-edge technologies, product detection and evaluation, industry standard development, and full-chain industrial technology services. Through the strong alliance model of "industry leader + authoritative scientific research and detection institution," they aim to address the shortcomings in PV+ESS+hydrogen equipment testing and verification. Enric (Bengbu) Compressor Co., Ltd. : Two large skid-mounted hydrogen pipeline compressors independently designed and with core technologies self-developed by the company successfully completed factory acceptance testing and were officially shipped for delivery. The equipment will support China's first long-distance green hydrogen transmission pipeline project. China Southern Power Grid Power Technology Co., Ltd.: The company completed core technology breakthroughs for long-endurance hydrogen-powered drones and successfully conducted pilot applications in mountain power grid inspection scenarios at the Meizhou Power Supply Bureau of Guangdong Power Grid. Wuhu Shipyard (Wuhu Shipyard Co., Ltd. : The Tongzhouwan site at Wuhu Shipyard's Nantong base completed the semi-submersible float-off launching of the vessel "18515." The vessel is an 18,500-deadweight-tonnage methanol dual-fuel high-end chemical tanker and is the first vessel in the series. It has a total length of 149.8 meters, a design speed of 14 knots, and can use methanol as clean fuel. This launching cleared a key step in standardized construction and will help promote local shipbuilding industry development. Zhangjiagang Port Group Co., Ltd. : The first round of bidding for Zhangjiagang Port's 10 hydrogen fuel cell tractor project had only two valid suppliers, failing to meet the bid opening requirements. The procurement method was changed to negotiated procurement. This procurement involves 10 units of 45 kN hydrogen fuel cell tractors, including 1 unit with intelligent assisted driving, for intra-port transfer operations and required to be compatible with existing flatbed trailers. Taiyuan Public Transport Holdings (Group) Co., Ltd. : The company selected a local gas supply service provider through merit-based evaluation to ensure daily hydrogen supply for 6 hydrogen-powered buses, with unit price settlement based on actual gas consumption. The supplied hydrogen must comply with the GB/T3634.2-2011 high-purity hydrogen standard. The service provider is required to deploy fixed hydrogen refueling stations in Taiyuan, prioritize emergency hydrogen refueling for public buses, implement one-card-per-vehicle hydrogen refueling management, with a project service period of two years. Lanzhou Lanshi Petroleum Equipment Engineering Co., Ltd.: The second-generation 45 MPa ionic liquid hydrogen compressor and 22 MPa hydraulic-driven piston hydrogen compressor, customized for a domestic energy station, successfully completed all testing procedures including boost commissioning and electrical control system joint debugging. 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. The team led by Professor Li Zhipeng from Northwestern Polytechnical University innovatively constructed a three-dimensional multi-physics coupling model for tubular solid oxide fuel cells, systematically revealing the quantitative effects of temperature, electrode thickness, porosity, and oxygen domain geometric parameters on battery output performance. 2. The National Hydrogen Energy Power Quality Inspection and Testing Center of China Automotive Engineering Research Institute completed and commercially opened a 0–400 kW hydrogen-involved loaded tri-axial vibration testing platform, addressing the shortcomings in large power hydrogen-involved multi-physics coupling testing in China. 3. The high specific power cathode-closed air-cooled fuel cell stack technology developed by the team of Academician Chen Zhongwei and Associate Researcher Zhang Meng from the National Key Laboratory of Energy Catalytic Conversion at the Dalian Institute of Chemical Physics passed the scientific and technological achievement appraisal by the China Petroleum and Chemical Industry Federation. This technology effectively resolves the industry contradiction between water retention and oxygen mass transfer in air-cooled fuel cells, addressing technical challenges such as low-humidity performance degradation, carbon corrosion, membrane drying and flooding, and high-power thermal management. 4. Two group standards on hydrogen production by water electrolysis were officially released and implemented: Technical Specifications for Safety of Hydrogen Production by Water Electrolysis and Accounting Methods for Economic Operation Indicators of Hydrogen Production by Water Electrolysis. 5. Petronor and H2SITE collaborated to advance membrane technology for hydrogen production, improving high-purity hydrogen and low-carbon efficiency in refining. 6. Dalian University of Technology designed an electron pump catalyst with an asymmetric photo-responsive structure, maintaining the asymmetry of electron distribution.

Over the past half-century of industrialisation, the global seaborne iron ore market consolidated around a duopoly dominated by Australia's Pilbara region and Brazil's Carajás and Iron Quadrangle districts. However, driven by macroeconomic cycle evolution, a structural shift in China's growth engine, and the steel industry's irreversible push toward low-carbon and green transformation, this traditional supply map is undergoing an unprecedented reshaping. On 26 November 2025, the first commercial vessel loaded with Simandou iron ore departed from the Port of Mabarya, marking the official commissioning of Guinea's Simandou Iron Ore Project — the world's largest undeveloped high-grade greenfield iron ore deposit by reserve. This milestone signals that the African continent, long relegated to secondary status, is progressively emerging as a significant new force in the global ferrous metals market. Africa's iron ore resources are widely regarded as the third-largest iron ore supply region globally, after Brazil's Carajás and Australia's Pilbara. With an estimated 13.8% share of global iron ore resources, and representing the most significant supply-side growth driver over the next five years, shifts in African iron ore dynamics will be a key determinant of international iron ore pricing over the long term. I. Global Iron Ore Market Background According to SMM research data, global iron ore production in 2025 is estimated at approximately 2.472 billion tonnes (bt). Africa contributes roughly 95 million tonnes (Mt), representing close to 4% of global output. As major mining projects progressively come on stream, Africa's iron ore production capacity is forecast to double by 2030, reaching approximately 259 Mt. Assuming no production curtailments elsewhere, Africa's global market share could rise to nearly 10%, while the overall global iron ore supply surplus is projected to widen to approximately 220 Mt. Although the international iron ore market has already entered a prolonged loose supply cycle, the substantive supply shock from African iron ore is expected to materialise gradually over the next five years. In the near term, Africa's estimated incremental shipment of approximately 15 Mt in 2026 — bolstered by its superior high-grade characteristics — is expected to be absorbed relatively smoothly by steelmakers seeking low-carbon blending feedstocks, resulting in a relatively moderate impact on absolute benchmark pricing. The critical inflection point is projected to fall in 2028–2029. As rail and port infrastructure currently under construction in West Africa is fully commissioned, a surge in high-grade iron ore output will exert heavy downward pressure on the right-hand side of the global iron ore cost curve. This will not only systematically compress the iron ore price floor but will trigger intense structural displacement — squeezing the operating margin of low-grade, high-cost producers. The current price downcycle is expected to persist through 2028. When international ore prices breach the USD 90/tonne marginal cost support level, higher-cost non-mainstream small and mid-size mines will be forced into curtailment and exit. The resulting supply shakeout will reshape the global iron ore supply structure into a multi-oligopoly dominated by ultra-large, low-cost operations (including the new African mines), complemented by quality mid-tier producers. II. Africa's Current Market Landscape: South Africa as Dominant Producer, West Africa Expanding Aggressively Building on the global context, this section focuses on Africa's overall iron ore landscape. As the primary driver of supply growth over the next five years, Africa's iron ore production is concentrated in West Africa and South Africa, currently dominated by three key countries. South Africa South Africa is the continent's largest producer, with 2025 output reaching approximately 67 Mt and export shipments maintaining an overwhelming 65% share of total African iron ore exports. However, South Africa's iron ore sector faces structural constraints limiting its organic growth headroom. As other emerging African resource nations commission significant new projects, South Africa's share of total African export volumes is projected to face sustained compression. Mauritania Mauritania is Africa's second-largest iron ore producer, with 2025 output of 15 Mt and export volumes of approximately 12 Mt, representing approximately 12% of the African market. Strategically situated adjacent to the Atlantic Ocean with high-grade iron ore deposits deep within the Sahara Desert, Mauritania possesses highly advantageous geographic and mineralogical characteristics. Its proximity to European and Middle Eastern markets — both in urgent need of green industrial raw materials — provides ideal conditions for the country to become a hub for global green metallurgy capacity relocation. Mauritania is expected to emerge as a highly promising iron ore supply nation going forward. Sierra Leone Sierra Leone is another important regional supply pole, with projected 2025 output also reaching approximately 12 Mt, holding a stable share of approximately 12% in the African export market. Chinese-invested iron ore mines within the country are actively scaling up their operations. Trade Flow Overview Based on full-year 2024 trade data, the proportion of African iron ore shipped to China is relatively low compared to traditional mainstream ore origins, at approximately 60%. The broader Pan-Asian market — encompassing China, Japan, and South Korea — absorbs approximately 70% of total African iron ore shipments. Western European countries, led by the Netherlands and Germany, constitute Africa's core secondary destination, accounting for close to 14% of trade flows. The remaining marginal trade flows are broadly diversified, extending to emerging steelmaking capacity clusters in the Middle East, including Bahrain, Oman, and Saudi Arabia. Key Corporate Players At the corporate level, South Africa's Kumba Iron Ore and Assmang rank as Africa's largest and second-largest iron ore producers, with annual output of approximately 37 Mt and 17 Mt respectively. Kumba Iron Ore: Kumba's mining operations — including the Sishen mine — are globally recognised for producing high-grade fines (Fe >62%) and metallurgically superior premium lump ore (Fe 65.2%). Under the prevailing trend of blast furnace (BF) emission reduction, this type of direct-charge lump ore — which reduces sintering-related carbon emissions — commands strong market demand and a substantial price premium. Assmang: Assmang similarly holds high-quality iron ore assets, operated as a 50:50 joint venture between African Rainbow Minerals (ARM) and Assore. Its Assmang Fines and Assmang Lump products (Fe 64–65%) are also direct-charge, high-quality materials. However, the company's key bottleneck lies not at the pithead but on the rail. Heavy dependence on Transnet Freight Rail (TFR) for haulage means logistics constraints frequently cap its achievable shipment volumes. SNIM (Société Nationale Industrielle et Minière): Mauritania's state-owned mining company is Africa's third-largest iron ore producer after the two South African majors. Unlike mainstream Australian and Brazilian ores, SNIM products occupy a distinctive niche in terms of physicochemical specifications and market segment. Its most widely traded product, TZFC fines, is characterised by extremely low alumina (Al2O3) and phosphorus (P) content. As an excellent blending ore, major steelmakers regularly blend SNIM fines with high-alumina Australian fines (such as certain Pilbara blend products) to significantly dilute the impurity ratio in the burden, thereby optimising blast furnace performance metrics. III. Africa's Market Transformation: Major Producers Facing Stagnation; Emerging Projects as Primary Growth Drivers Where does future growth lie? According to SMM observations, Africa is expected to undergo a significant structural transformation within the next five years. Multiple large-scale iron ore projects across the continent are currently under construction, with scheduled commissioning prior to 2030. Based on our modelling, African iron ore supply is forecast to grow substantially from the current approximately 95 Mt to 260 Mt over five years — a cumulative increase of 85%. The market structure is also expected to shift from South Africa-dominated Western-oriented exports to a Guinea-led export paradigm. Guinea — Simandou Iron Ore Project The primary growth driver will be Guinea's renowned Simandou iron ore project, jointly developed by multiple entities and representing the world's largest undeveloped high-grade open-pit hematite deposit. The project holds reserves in excess of 5 billion tonnes (bt) and a designed production capacity of 120 Mt per annum, making it the project with the greatest strategic potential to reshape the existing iron ore market structure. Since first ore shipments in late November 2025, cumulative exports from the principal export hub — the Port of Mabarya — reached approximately 1.6 Mt through Q1 2026. Blocks 1 & 2, developed under the Winning Consortium Simandou (WCS), have successfully commenced production, with 2026 capacity expected to reach nameplate and ramp-up to 60 Mt per annum projected over the next two to three years. Blocks 3 & 4, led by Simfer (a Rio Tinto and Baowu joint venture), are forecast to commission in Q1 2026, with estimated 2026 shipments of 5 Mt and a 30-month ramp-up timeline to reach 60 Mt per annum. In aggregate, Guinea is projected to achieve 120 Mt per annum before 2030, becoming the world's second-largest single iron ore project by capacity — second only to Vale's S11D project in Brazil (designed capacity of 200 Mt post-expansion, expected by 2030). Other African Countries — Key Development Projects Other nations — including Liberia, Gabon, Sierra Leone, and the Republic of Congo — all have iron ore projects under development. Projects scheduled for commissioning before 2030 account for a combined planned capacity of approximately 46 Mt. The largest single project is ArcelorMittal Liberia's (AML) Tokadeh Phase II, expected to commission in H2 2026 and reach a nameplate capacity of 20 Mt per annum by year-end, producing iron ore concentrate with an estimated grade exceeding Fe 66%. Given that AML's European steelmaking capacity cannot absorb such a large volume increment in the near term, the majority of Tokadeh's output is expected to enter the international seaborne market, exerting pricing pressure on the iron ore concentrate segment. South Africa — Structural Constraints on Production Growth South Africa's output is expected to remain broadly stable in the 63–67 Mt range, with mild downside risk. The primary underlying cause is the country's heavy dependence on the heavy-haul Sishen–Saldanha Bay rail corridor, operated by Transnet Freight Rail (TFR). In recent years, TFR has suffered a severe reduction in effective haulage capacity due to locomotive fleet shortages, frequent cable theft incidents, and chronic infrastructure underinvestment, materially constraining the rail transport of major bulk commodities including iron ore and coal. In its FY2025 annual results published in February 2026, Kumba Iron Ore — South Africa's dominant iron ore producer — reported total finished goods inventory of 7.5 Mt, up from 6.9 Mt at end-2024. With rail haulage capacity unable to match mine production, South Africa's major iron ore producers have been compelled to stockpile large volumes at mine sites. To avoid inventory saturation, miners have been forced to proactively revise production guidance downward. While producers are actively addressing haulage constraints, the deeply entrenched structural issues on the rail network are unlikely to be resolved in the short term. Mauritania — SNIM Long-Term Strategic Growth Blueprint Post-2030, attention turns to SNIM's strategic growth roadmap. Under its Horizon 1 programme, the company plans to raise annual production capacity to 45 Mt by 2031, through the implementation of lean manufacturing practices, equipment and technology upgrades, and the co-development of new mineral reserves. Of this total, 20 Mt will be produced under SNIM's wholly owned capacity, while the remaining 25 Mt will be realised through joint ventures with international capital partners. SNIM has further set a long-term target to expand annual capacity to 80 Mt by 2045 under its Horizon 3 plan. Democratic Republic of Congo (DRC) — MIFOR (Grand Est Iron Ore Project) On 26 March 2026, the DRC and China signed a Memorandum of Understanding designating the MIFOR project as a priority flagship initiative. The deposit is estimated to hold cumulative resources of 15–20 bt, with an average grade exceeding Fe 60% — a potential scale approximately 2.5 times that of Guinea's Simandou. Phase I capital expenditure is estimated at USD 28.9 billion, encompassing the construction of a heavy-haul railway and the utilisation of Congo River navigation, ultimately linking to a deep-water port at Banana on the Atlantic coast. Phase I design capacity stands at 50 Mt per annum, with a long-term target of scaling to 300 Mt per annum. These projects collectively underscore Africa's inevitable emergence as an indispensable iron ore supply source for the global steel industry. IV. Global Steel Industry Chain Transformation: Can Africa, as a Hub for High-Grade Ore, Enable DRI Production? High-Grade Ore as a DRI Feedstock Advantage Notably, the majority of Africa's current and planned iron ore projects produce ore at average total iron (Fe) grades predominantly above 65%, with extremely low impurity content. This scarce, high-grade ore is the ideal feedstock for the Direct Reduced Iron (DRI) process. As the DRI-Electric Arc Furnace (EAF) green steel route gains traction across Europe, the Americas, and China, demand for iron ore at Fe 65% and above will grow exponentially on the demand side. This will confer a substantial 'grade premium' on major projects, including South Africa's Kumba, Guinea's Simandou, and other future African producers. Over the longer term, iron ore pricing benchmarks are inexorably shifting away from the traditional Platts 62% Fe index, and African ore producers will gain bargaining leverage when renewing long-term supply agreements, thereby reshaping the global industry chain profit distribution structure. DRI Investment Pipeline in Africa In alignment with global carbon neutrality objectives, international investors — encouraged by local governments — are actively deploying capital into high value-added downstream processing facilities, including DRI plants and high-grade pellet facilities, aimed at leveraging Africa's abundant high-grade iron ore resources and vast renewable energy potential for DRI production. According to SMM observations, Africa is projected to add approximately 20 Mt of DRI capacity by 2030. The largest single project is a Libyan integrated DRI complex, jointly developed by Turkish steelmaker Tosyali and the Libyan National Steel Company, with a total design capacity of 8.1 Mt. China's Decarbonisation Push and the Global Green Steel Transition As China advances its dual carbon targets — carbon peaking by 2030 and carbon neutrality by 2060 — the domestic steelmaking sector is undergoing significant adjustment. The traditional carbon-intensive Blast Furnace–Basic Oxygen Furnace (BF-BOF) long route faces increasingly stringent capacity replacement policies and environmental regulations. Simultaneously, the global trade system is accelerating the imposition of carbon costs, most notably through the EU Carbon Border Adjustment Mechanism (CBAM), compelling global steel supply chains to accelerate the transition from the source toward a low-carbon, ultimately zero-carbon 'green steel' era. In the context of this irreversible transition, the DRI-EAF short-route process has become the most commercially viable decarbonisation pathway. To meet surging global demand for green steel, market projections indicate that global DRI designed production capacity will need to expand by hundreds of millions of tonnes during the 2030s. This scale of expansion will profoundly alter the global steel supply structure: the share of traditional hot metal (pig iron) production will progressively decline, while low-carbon DRI supply will directly determine the competitiveness of major economies in the global green steel market. In particular, 'hydrogen metallurgy' — using green hydrogen to replace natural gas and coking coal as the reductant in iron ore reduction — is widely recognised by the industry as the core technology for achieving ultimate zero-carbon steelmaking. Africa as the Future 'Green Iron' Production Hub Represented by world-class high-grade iron ore projects such as Guinea's Simandou, the progressive commissioning of these mega-mines is expected to inject over 100 Mt of high-grade iron ore per year into the global market, substantially alleviating the global scarcity of DRI-grade ore. More critically, North Africa and West Africa possess world-leading solar and wind energy potential, enabling large-scale, low-cost green hydrogen production in situ. This perfect combination of 'high-grade ore + low-cost green hydrogen' is increasingly inclinng multinational capital and steel majors toward establishing DRI production lines directly on African soil — reducing iron ore to low-carbon Hot Briquetted Iron (HBI) on-site for ocean transport to EAF facilities in Asia and Europe. Africa is thus formally transitioning from its historical role as a raw material exporter to become an indispensable link in the green iron production chain of the future.

SMM June 2 News: Metals market: Overnight, metals generally rose across both domestic and overseas markets, with SHFE lead being the only decliner, down about 0.09%. LME tin and SHFE tin both rose over 2%, with LME tin up 2.63% and SHFE tin up 2.46%. LME copper, LME aluminum, LME zinc, LME nickel, SHFE copper, and SHFE nickel all rose over 1% (LME copper +1.97%, LME aluminum +1.59%, LME zinc +1.09%, LME nickel +1.42%, SHFE copper +1.12%, SHFE nickel +1.26%). The remaining metals gained less than 1%, with the alumina front-month contract down 0.69% and the foundry aluminum front-month contract up 0.41%. Overnight, ferrous metals collectively rose, with stainless steel leading the gains at +1.52%, and iron ore up 0.51%. Hot-rolled coil and rebar saw minor fluctuations. In coking coal and coke, coking coal rose 2.19% and coke rose 0.84%. Precious metals: Overnight, COMEX gold fell 1.7% and COMEX silver dropped 0.96%. In China, SHFE gold fell 1.28% and SHFE silver declined 0.73%. As of 6:43 AM on June 2, overnight closing prices: Macro front China: [NDRC, National Energy Administration and other departments issued the Notice on Printing and Distributing the Guidelines for Accounting of Non-Fossil Energy Power Consumption (Trial)] On June 1, the NDRC, National Energy Administration and other departments issued the Notice on Printing and Distributing the Guidelines for Accounting of Non-Fossil Energy Power Consumption (Trial). It mentioned that the development and reform commissions, energy bureaus, ecological environment departments, statistics bureaus, and data management departments of all provinces, autonomous regions, municipalities directly under the central government, and the Xinjiang Production and Construction Corps, as well as State Grid Corporation of China, China Southern Power Grid Co., Ltd., Inner Mongolia Power (Group) Co., Ltd., relevant power generation enterprises, Beijing and Guangzhou Power Exchange Centers, China Renewable Energy Engineering Institute, and China Electricity Council: To implement the major decisions and plans of the CPC Central Committee and the State Council on carbon peaking and carbon neutrality, and to promote the improvement of the carbon emission statistical accounting system, we have formulated the Guidelines for Accounting of Non-Fossil Energy Power Consumption (Trial), which are hereby issued to you. Please carry out relevant work accordingly. These guidelines shall be implemented on a trial basis from the date of issuance and shall be used for accounting of non-fossil energy power consumption for 2026 and subsequent years. If there are any issues or suggestions during the trial period, please provide timely feedback to the NDRC and the National Energy Administration. Shanghai Mayor Gong Zheng chaired a standing meeting of the municipal government on June 1. The meeting approved in principle the Shanghai Plan for Accelerating New-Type Industrialisation and Building a Modern Industrial System under the 15th Five-Year Plan, and noted the need to develop and strengthen a number of emerging pillar industries and make forward-looking arrangements for future industries. The meeting emphasized the need to adhere to innovation-driven development and forge competitive advantages in industry, accelerate breakthroughs in new technologies, R&D and application of new products, and cultivation and opening of new scenarios, support the efficient transformation and industrialisation of scientific and technological achievements, and turn more "flowers of technology" into "fruits of industry." The CPC Chengdu Municipal Committee and the Chengdu Municipal People's Government issued the Opinions on Accelerating the Building of a National Advanced Manufacturing Base. The opinions proposed forward-looking deployment of future industries, accelerating the layout of new tracks including nuclear fusion energy, brain-computer interfaces, quantum technology, intelligent sensing, embodied AI, sixth-generation mobile communications, biomanufacturing, cell and gene therapy, flying cars, and frontier new materials. US dollar: As of the overnight close, the US dollar index rose 0.26% to 99.19. Data from the Institute for Supply Management (ISM) showed that, driven by growth in new orders and production, the US May ISM Manufacturing Index rose to 54, hitting a four-year high. US manufacturing has sent expansion signals for five consecutive months, indicating that manufacturing is regaining vitality amid a surge in artificial intelligence (AI) investment, more favourable tax policy, and reduced trade policy uncertainty. Persistent cost pressure may mean US consumers will face higher prices, as the US Fed's preferred inflation gauge rose 3.8% YoY in April. (Wallstreetcn) According to CME "FedWatch": The probability of the US Fed keeping rates unchanged through June was 98.4%, with a 1.6% probability of a cumulative 25-basis-point interest rate cut. The probability of the US Fed keeping rates unchanged through July was 90.2%, with an 8.4% probability of a cumulative 25-basis-point rate hike and a 1.4% probability of a cumulative 25-basis-point interest rate cut. (Jin10 Data APP) Ozan Tarman, Vice Chairman of Global Macro at Deutsche Bank, said the US Fed's next move will not be a rate hike. Tarman said the newly appointed Fed Chairman Kevin Warsh will try to "convince his colleagues to stay put." "Everyone is excitedly talking about how he might completely change his stance and even convince Trump that a significant rate hike is possible this year — that seems a bit excessive to me." "The best approach is to wait and see, and let the political dynamics in the US, the Strait of Hormuz, and even the UK play out on their own," Tarman said. Tarman noted that a European Central Bank rate hike in June appears to be a foregone conclusion, but whether Lagarde will raise rates in September will depend on the progress of Middle East peace negotiations. (Bloomberg) Torsten Slok, Chief Economist at Apollo Global Management Inc., said that AI infrastructure construction will push up inflation in the early stages, which will prevent new Fed Chairman Kevin Warsh from cutting interest rates as quickly as he had previously hinted. "We may have to wait a while longer, because in the early stages, the AI boom will certainly push up inflation," he said. From the perspective of semiconductor prices, energy prices, and labour costs, the risk of price pressure is "very clear." (Bloomberg TV) Macro: Today, the US April JOLTs job openings, Switzerland April trade balance, UK April central bank mortgage approvals, Eurozone May CPI annual rate preliminary reading, and Eurozone May CPI monthly rate preliminary reading will be released. In addition, 2026 FOMC voter and Minneapolis Fed President Kashkari will deliver a speech, 2026 FOMC voter and Cleveland Fed President Hammack will speak on monetary policy, and Bank of England Governor Bailey will attend a House of Lords hearing. Crude oil: As of the overnight close, oil prices on both markets rose, with WTI up 5.85% and Brent up 4.53%, driven by the breakdown of US-Iran negotiations and blockade risks. Earlier, Iranian media reported that Iran would suspend communication with the US through intermediaries and planned to completely block the Strait of Hormuz, sending crude oil prices sharply higher. This morning, US President Trump said he expected to reach an agreement with Iran "within the next week," extending the current ceasefire arrangement and reopening the Strait of Hormuz. Trump said the negotiations were progressing well and expressed optimism about reaching a deal. (CCTV) (Wallstreetcn APP) According to US sources, the Trump administration continued to release large volumes from the US Strategic Petroleum Reserve to ease the energy supply crisis triggered by the US-Iran conflict and the closure of the Strait of Hormuz. Data released by the US Department of Energy (DOE) showed that the Strategic Petroleum Reserve decreased by 8 million barrels of crude oil last week, following declines of 9.1 million barrels and a record 9.9 million barrels in the two preceding weeks. As of now, the Strategic Petroleum Reserve inventory has fallen to 357.1 million barrels, the lowest level since January 2024. (Wallstreetcn) Three sources said OPEC+ producers will most likely agree at their meeting on Sunday to further increase crude oil production quotas in July. However, the Iran war has so far caused some countries to fall short of their previous production increase targets. A further increase in production quotas would indicate that the organisation is gradually resuming normal operations, despite disruptions caused by the blockade of the Strait of Hormuz and the unexpected withdrawal of the UAE in May. According to sources, OPEC+ is expected to increase production by approximately 188,000 barrels per day in July, the same as the increase agreed for June, which had been reduced from 206,000 barrels per day after taking into account the UAE's withdrawal. (Jin10 Data APP)

Against the backdrop of accelerating global energy transition and digital economy development, silver—a strategic metal possessing both industrial and financial attributes—is witnessing profound transformation across its industry chain. On one hand, emerging sectors such as PV, NEV, and 5G communications are driving continuously climbing demand for silver, propelling the industry toward higher value-added and greener upgrades; on the other hand, resource constraints, technological barriers, and market fluctuations are imposing higher demands on industry chain resilience, urgently requiring innovation-driven coordinated development across the entire chain. Dual Drivers of Policy and Market Under China's "dual carbon" goals and the global ESG investment wave, the silver industry faces pressing needs for green production, circular utilization, and low-carbon technologies. The NDRC's "14th Five-Year Plan for Circular Economy Development" explicitly calls for strengthening the circular utilization of precious metal resources, while international silver price fluctuations and geopolitical risks are compelling enterprises to enhance supply chain autonomy and controllability. Against this backdrop, the Silver Industry Chain Innovation Conference has emerged, aiming to build a collaborative platform integrating government, industry, academia, research, and end-use applications, to address industry pain points, and to lead the industry toward high-end, intelligent, and internationalized advancement. Innovation Needs and Industry Pain Points Technological Breakthroughs: Silver purification processes, nano-silver material applications, and scrap recycling technologies urgently need breakthroughs to meet the demand for high-purity, low-cost silver in emerging fields such as PV silver paste and flexible electronics. Industry Chain Coordination: Information barriers exist across mining, smelting and processing, and end-use applications segments, requiring digital tools to achieve optimized resource allocation and risk sharing. Green Transformation: Traditional smelting processes are energy-intensive and highly polluting, necessitating the promotion of clean production technologies and circular economy models in response to global carbon neutrality commitments. Market Expansion: Silver's application potential in frontier fields such as hydrogen energy and quantum computing has yet to be fully explored, requiring strengthened cross-industry collaboration and standard-setting. Conference Objectives and Value Themed "Silver Chain Innovation · Intelligent Creation for the Future," this conference brings together global silver industry chain leaders, research institutions, financial institutions, and policymakers for in-depth dialogue around three core topics: technological R&D, supply chain optimization, and market expansion. Through releasing industry white papers, establishing innovation alliances, and signing major projects, the conference aims to drive the silver industry's transformation from "resource dependence" to "technology leadership," providing critical material support for the global energy revolution and digital economy. IKOI S.p.A will attend this grand event to discuss industry development trends with industry peers and jointly propel the silver industry to new heights. Click to register now. Join us to witness and participate in this extraordinary and far-reaching industry event, and together create a brilliant new chapter! IKOI, established in 1977, is a global leader in pyrometallurgical processes for precious metal refineries, mints, and jewelry markets. Currently, it has 3 major product lines: COMPACT integrated fully automatic gold and silver ingot casting systems, FCC FLAMELESS CASTING CHAMBER® fully automatic delivery bar systems, and the acid-free separation technology ALS system that physically separates gold and silver. IKOI's vision is to create safe, efficient, and green precious metal processing methods. IKOI's mission is to bring innovative and sustainable technologies to the precious metal industry. Contact Information Ni Yong 187 0185 9684 Long press to scan the QR code to register now 2026 SMM (7th) Silver Industry Chain Innovation Conference

Against the backdrop of the global energy transition and the accelerating development of the digital economy, silver—a strategic metal with both industrial and financial attributes—is undergoing profound transformation across its industry chain. On one hand, demand for silver from emerging sectors such as PV, NEVs, and 5G communications continues to climb, driving the industry toward higher value-added and greener development. On the other hand, resource constraints, technological barriers, and market fluctuations impose higher demands on industry chain resilience, urgently requiring innovation-driven coordinated development across the entire chain. Dual Drivers of Policy and Market Under China's "dual carbon" goals and the global ESG investment wave, the silver industry faces pressing needs for green production, recycling, and low-carbon technologies. The NDRC's "14th Five-Year Plan for Circular Economy Development" explicitly calls for strengthening the recycling of precious metal resources, while international silver price fluctuations and geopolitical risks are compelling enterprises to enhance supply chain autonomy and controllability. Against this backdrop, the Silver Industry Chain Innovation Conference has emerged, aiming to build a collaborative platform integrating government, industry, academia, research, and end-use applications, to address industry pain points, and to lead the industry toward high-end, intelligent, and internationalized development. Innovation Needs and Industry Pain Points Technological Breakthroughs: Silver purification processes, nano-silver material applications, and scrap recycling technologies urgently need breakthroughs to meet the demand for high-purity, low-cost silver in emerging fields such as PV silver paste and flexible electronics. Industry Chain Coordination: Information barriers exist across mining, smelting and processing, and end-use application segments, requiring digital tools to achieve optimized resource allocation and risk sharing. Green Transformation: Traditional smelting processes are energy-intensive and highly polluting, necessitating the promotion of clean production technologies and circular economy models in response to global carbon neutrality commitments. Market Expansion: Silver's application potential in frontier fields such as hydrogen energy and quantum computing has yet to be fully explored, requiring strengthened cross-industry collaboration and standards development. Conference Objectives and Value Themed "Silver Chain Innovation · Intelligent Creation for the Future," this conference brings together global silver industry chain leaders, research institutions, financial institutions, and policymakers for in-depth dialogue on three core topics: technological R&D, supply chain optimization, and market expansion. Through the release of an industry white paper, the establishment of an innovation alliance, and the signing of major projects, the conference aims to drive the silver industry's transformation from "resource dependence" to "technology leadership," providing critical material support for the global energy revolution and digital economy. Quanda New Materials (Ningbo) Co., Ltd. / Ningbo Haoshun Precious Metals Co., Ltd. will attend this grand event to discuss industry development trends with industry peers and jointly propel the silver industry to new heights. Click to register now. Join us in witnessing and participating in this extraordinary and far-reaching industry event, and together create a brilliant new chapter! Quanda New Materials (Ningbo) Co., Ltd. was founded in December 2023 by Mr. Chen Yongda, who has over twenty years of experience in the silver industry, building upon his existing silver distribution business to align with the major trend of silver consumption upgrading in the new era. With a registered capital of 15 million yuan, the company is located in the scenic Xiangshan Chemical Economic and Technological Development Zone in Ningbo. It is a fully automated factory enterprise specializing in the production of silver nitrate using silver as the primary raw material, with a designed capacity of 5,000 mt/year, and is a key supported enterprise of the Xiangshan Chemical Economic and Technological Development Zone in Ningbo. The company boasts strong technical capabilities and an experienced professional team, with advanced production processes and equipment. Relying on five management systems, it maintains strict quality detection procedures and has established an internal R&D center staffed with dozens of mid-to-senior-level professional and technical personnel. The company's product quality is consistently among the leading levels in the domestic peer industry, with products widely applied in military enterprises, the electronics industry, the PV industry, aerospace, and other fields. We are committed to providing clients with more value-added services through quality products, efficient services, and reasonable prices. Contact Information Ms. Shi 13566055239 Address: No. 52 Wentao Road, (Baiyanshan) Park, Xiangshan County, Ningbo City, Zhejiang Province Ningbo Haoshun Precious Metals Co., Ltd. is an innovative modern commercial distribution enterprise primarily engaged in the supply of precious metal silver raw materials in China and customized silver crafts services. It is a standing council member of the China General Chamber of Commerce and a vice president unit of the Gold and Silver Branch of the China Nonferrous Metals Industry Association (CNIA). Since its establishment and operation, the company has consistently adhered to the business philosophy of "being down-to-earth, operating with integrity, and achieving mutual benefit." It upholds the business cooperation principle of "creating value together, sharing results together, and winning the future together." After years of development and growth, the company has established long-term and stable cooperative relationships with multiple well-known silver mine enterprises in China. Its supply and sales channels have become stable, and it has selected a group of strategic partners with strength, credibility, quality, and service orientation. It has cultivated a dedicated, responsible, pragmatic, and efficient business team, providing a strong guarantee for the company's steady and high-quality development. Its industry reputation, market influence, and corporate soft power are all gradually strengthening. Its spot silver trading volume has been at the industry-leading level for consecutive years. A modern commercial distribution enterprise with a maturing management mechanism is emerging. Looking ahead, Ningbo Haoshun Precious Metals Co., Ltd. is expected to align with the major trend of silver consumption upgrading in the new era, proactively innovate and adapt, employ flexible and elastic trading models, adopt a strict risk control system, and leverage timely and efficient services. The company will strive to anticipate clients' needs and fulfill their requirements, endeavoring to provide clients with diversified and more value-added services. As the ancients said, " When one calls with the wind at his back, his voice is no louder, yet it is heard more clearly. Ningbo Haoshun Precious Metals Co., Ltd. will stay true to its original mission of serving the National Silver Enterprise Annual Conference. On the road ahead, it will willingly serve as a practitioner of honest and trustworthy trading in the silver industry market, a driver of integrated coexistence and win-win cooperation among enterprises, and a contributor to the steady, prosperous, and sustainable development of the industry. Contact Information Mr. Yao 13817213537 Tel: 0574-88053076 Fax: 0574-88053796 Address: Room 151, Building 22, No. 818 Qiming Road, Yinzhou District, Ningbo, Zhejiang Province Press and hold to scan the QR code to register now 2026 SMM (7th) Silver Industry Chain Innovation Conference

Recently, the integrated hydrogen energy comprehensive utilization testing project developed by Shaanxi Hydrogen Energy Inspection and Detection Co., Ltd. successfully completed full-process commissioning, with all systems reaching operational standards and about to be officially put into regular operation. The project is Shaanxi Province's first containerized PV green electricity PEM hydrogen production comprehensive demonstration project. Upon commissioning, it effectively filled the gap in full-scenario hydrogen energy application demonstration in north-west China, becoming a landmark achievement in the construction of Shaanxi Province's hydrogen energy entire industry chain system. It is understood that the project is located at the Shaanxi Hydrogen Energy Quality and Technology Innovation Base, integrating multiple advanced hydrogen energy system equipment, including a 2MW PV power generation system, 50Nm³/h PEM hydrogen production equipment, a 35MPa high-pressure hydrogen storage system, vehicle hydrogen refueling equipment, and a 100kW hydrogen fuel cell combined heat and power system. It fully covers the entire hydrogen energy production, storage, transportation, refueling, and utilization business chain, enabling real-world testing, verification, and iterative optimization of core technologies across the entire hydrogen energy process. The project adopts an innovative modular containerized construction approach, which, compared with traditional fixed-installation projects, offers outstanding advantages including shorter deployment cycles, flexible installation, and strong replicability. It can subsequently be adapted in batches to diversified application scenarios such as green energy supply for industrial parks, energy replenishment for remote areas, and emergency backup power supply according to market demand, with a wide range of adaptability and extremely high promotion value. Leveraging the base's existing distributed PV supporting facilities, the project, upon completion, established a virtuous green energy circulation system, forming a zero-carbon operation closed loop of "daytime PV power generation and on-site hydrogen production and storage, nighttime hydrogen power generation and autonomous energy supply," successfully creating a demonstration model of a small-scale zero-carbon park and providing strong support for advancing regional carbon peaking and carbon neutrality goals. This innovative model completely broke through the barriers to full-chain hydrogen energy application, addressing industry pain points of traditional hydrogen energy utilization models such as low efficiency, limited application scenarios, and insufficient economic viability, significantly enhancing the safety, utilization efficiency, and comprehensive economic benefits of hydrogen energy applications. In the next step, the project operator will strictly uphold the safety production baseline, continuously optimize equipment operating parameters, improve system functions, and ensure stable and comprehensive project operation. Meanwhile, using this demonstration project as a core platform, the operator will continue to focus on hydrogen energy core technology R&D, actively carry out industry-academia-research collaborative innovation, and accelerate the commercialization of cutting-edge technological achievements. Leveraging the industrial resource advantages of the industry leader, the operator will pool regional hydrogen energy industry strengths, continuously improve the new-type hydrogen-electricity coupled energy system, and continuously empower the transformation and upgrading of Shaanxi Province's energy structure and the implementation of the dual-carbon strategy.

Against the backdrop of global energy transition and the accelerating development of the digital economy, silver—a strategic metal with both industrial and financial attributes—is seeing its industry chain undergo profound transformation. On one hand, demand for silver from emerging sectors such as PV, NEVs, and 5G communications continues to climb, driving the industry toward higher value-added and greener development. On the other hand, resource constraints, technological barriers, and market fluctuations impose higher demands on industry chain resilience, urgently requiring innovation-driven coordinated development across the entire chain. Dual Drivers of Policy and Market Under China's "dual carbon" goals and the global ESG investment wave, the silver industry faces pressing needs for green production, recycling, and low-carbon technologies. The NDRC's "14th Five-Year Plan for Circular Economy Development" explicitly calls for strengthening the recycling of precious metal resources, while international silver price fluctuations and geopolitical risks are compelling enterprises to enhance supply chain autonomy and controllability. Against this backdrop, the Silver Industry Chain Innovation Conference has emerged, aiming to build a collaborative platform integrating government, industry, academia, research, and end-use applications, to address industry pain points and lead the industry toward high-end, intelligent, and internationalized development. Innovation Needs and Industry Pain Points Technological Breakthroughs: Silver purification processes, nano-silver material applications, and scrap recovery technologies urgently need breakthroughs to meet the demand for high-purity, low-cost silver in emerging fields such as PV silver paste and flexible electronics. Industry Chain Coordination: Information barriers exist across mining, smelting and processing, and end-use application segments, requiring digital tools to achieve optimized resource allocation and risk sharing. Green Transformation: Traditional smelting processes are energy-intensive and highly polluting, necessitating the promotion of clean production technologies and circular economy models in response to global carbon neutrality commitments. Market Expansion: Silver's application potential in frontier fields such as hydrogen energy and quantum computing has yet to be fully explored, requiring strengthened cross-industry collaboration and standard-setting. Conference Objectives and Value Themed "Silver Chain Innovation · Intelligent Creation for the Future," this conference brings together global silver industry chain leaders, research institutions, financial institutions, and policymakers for in-depth dialogue on three core topics: technological R&D, supply chain optimization, and market expansion. Through the release of an industry white paper, the establishment of an innovation alliance, and the signing of major projects, the conference will drive the silver industry's transformation from "resource dependence" to "technology leadership," providing critical material support for the global energy revolution and digital economy. Guangdong Jinhaoyu Environmental Protection Technology Co., Ltd. will attend this grand event, joining industry peers to discuss industry development trends and work together to propel the silver industry to new heights. Click to register now, and together witness and participate in this extraordinary and far-reaching industry event, co-creating a brilliant new chapter! Guangdong Jinhaoyu Environmental Protection Technology Co., Ltd. is located in Nanshui Town, Gaolan Port, Jinwan District, Zhuhai City. Holding hazardous waste treatment qualifications in Guangdong Province, it is a technology-oriented environmental protection enterprise integrating R&D, production, and sales, specializing in comprehensive utilization of resources. The company possesses mature precious metal and rare metal recovery and disposal processes along with a professional technical team, capable of professionally recovering and deeply refining metals such as gold, silver, palladium, platinum, rhodium, and ruthenium from industrial scrap and wastewater, achieving harmless disposal of hazardous waste and resource recycling. Main Business 1. Hazardous Waste Disposal: Collection, storage, treatment, and comprehensive utilization of hazardous waste resources. 2. Finished Product Sales: A series of products including potassium gold cyanide, palladium chloride, palladium sulphuric acid, palladium sponge, platinum-group materials, gold ingots, silver ingots, copper powder, composite sheets & plates, etc. 3. Procurement Needs: Various types of precious metal-bearing scrap R&D and Innovation The company has a professional R&D laboratory, equipped with high-end equipment and a technical team, focusing on R&D in new materials, environmental protection technologies, and information technology. It continuously carries out technological breakthroughs, talent cultivation, and achievement transformation, empowering industrial upgrading through technological innovation. The enterprise adheres to the development philosophy of technological innovation and continuous improvement, encouraging all employees to refine and optimize based on their positions, maintaining industry leadership with stable and reliable technical capabilities. Meanwhile, the company actively deploys R&D in artificial intelligence deep learning technologies, delving into image recognition algorithm optimization and model building, empowering the enterprise's intelligent and high-quality development with cutting-edge technologies. Contact Information Sales Hotline: 13318942131 (Product Consultation, Order Cooperation) Procurement Hotline: 13923491869/18566557880 (Precious Metal-bearing Scrap Procurement) Long Press to Scan and Register Now 2026 SMM (7th) Silver Industry Chain Innovation Conference