[SMM Tin Morning Brief: The Most-Traded SHFE Tin Contract Surged Sharply Late in the Night Session and Closed at a High, While Downstream Enterprises Showed Weak Purchase Willingness]

On March 20 in Beijing, the Department of Energy Conservation and Comprehensive Utilization of the Ministry of Industry and Information Technology organized relevant enterprises, including China Resources Recycling Group and Guangdong Brunp Recycling Technology Co., Ltd., as well as research institutions such as the China Automotive Technology and Research Center and the CCID Research Institute, to discuss work related to building a recycling and utilization system for retired power batteries from NEVs. The meeting conducted an in-depth analysis of the current situation facing the development of the NEV power battery recycling and utilization system, and held serious discussions on issues including innovating policy supply, improving recycling mechanisms, and refining the standards system. The participating representatives unanimously stated that they would integrate local and enterprise practices, build consensus and synergy, carry out in-depth research on major issues in the development of an integrated recycling network, strengthen policy reserves, and accelerate the improvement of the NEV power battery recycling and utilization system.

◼ At the beginning of 2026, Musk’s SpaceX plan for 100 GW of annual space PV capacity ignited the A-share market, with multiple concept stocks rising by more than 30 in a single month. At the same time, however, earnings previews from leading PV companies generally showed losses for 2025, and industry fundamentals remained in a deep winter. Behind the stark divergence between the speculative frenzy around the Musk-SpaceX concept and the earnings trough, is the market overly expecting a “second growth curve,” or is this a genuine signal of industrial transformation? ◼ As the global PV industry moves from rapid expansion into a new stage of rational development, its value has gone beyond that of clean energy alone: Against the backdrop of explosive growth in AI computing power driving massive electricity demand, compounded by energy security anxiety triggered by geopolitical conflict in the Middle East, developing PV may become a core strategic choice for countries to achieve their “dual-carbon” goals, build autonomous and controllable energy systems, and reduce electricity costs for end-users. ◼ Since the escalation of the U.S.-Iran conflict at the end of February, the world’s four major benchmark crude oil prices have entered a rapid upward trajectory. Before the outbreak of the conflict, oil prices had remained broadly stable; however, starting on March 2, as the fighting expanded and spread to the Persian Gulf, oil prices immediately entered a sharp uptrend. Note: Shanghai crude oil prices are converted based on the settlement-date exchange rate of 1:0.15. Source: Public information, SMM. ◼ Although the impact borne by different regions varies due to differences in energy mix, geopolitical location, and policy response, the surge in imported crude oil costs driving a broad rise in energy prices has become a common challenge facing all countries. Europe is a case in point. Although Europe’s direct dependence on Middle Eastern crude oil was not high, at only about 5 according to data from energy market intelligence firm Kpler, it remained highly dependent on the region for refined products such as diesel and aviation kerosene, as well as liquefied natural gas. Disruptions in the Strait of Hormuz caused by the conflict directly pushed up Europe’s terminal energy prices—fuel prices at gas stations across the region surged, and natural gas prices broke above EUR 60 per megawatt hour on the 9th, reaching a new high since 2022. The continued rise in energy prices is bound to transmit into broader areas of the economy, increasing overall inflationary pressure and once again underscoring the importance of building secure and controllable energy systems. Accelerating the Clean Transition of the Global Energy Mix, the PV Industry Advances Toward High-Quality Development ◼ The International Energy Agency (IEA) forecasts that, despite economic pressure, global electricity demand momentum remains strong in 2025, with growth rates in 2025 and 2026 expected to be 3.3% and 3.7%, respectively. Data from 2020 to 2025 showed that the global power market followed a trajectory of continued overall growth alongside structural transition toward cleaner energy , with the share of renewable energy sources such as solar rising significantly, although fossil fuels still accounted for the dominant share. ◼ According to the IEA’s Net Zero Emissions Scenario, solar power’s share in the energy mix is expected to rise from less than 2% at present to 12% in 2035 and 28% in 2050. This means PV installations are still far from reaching their ceiling, with substantial room for future growth. ◼ The past five years marked a critical period in which the global PV market shifted from rapid expansion toward rational development. The IEA forecasts that total global new PV installations over the next five years will reach about 3.68 TW, accounting for nearly 80% of new renewable energy additions over the same period, and are expected to become the world’s largest renewable energy source by the end of 2030. This is mainly due to its widening economic advantages—by 2024, the cost of solar PV power generation had already fallen 41% below the cheapest fossil fuel alternative, and these cost advantages are driving rapid growth in both PV installations and power generation share. Source: IEA, public information, SMM. ◼ As a key carrier of PV installations, especially the backbone of utility-scale power plants, solar panel mounting bracket installations are expected to maintain annual average growth of 5%-6% alongside installation growth. Specifically, to achieve annual average new PV installations of 500-600 GW, corresponding module demand is estimated at about 550-700 GW based on the capacity ratio. Assuming a conventional 1:1 module-to-bracket configuration, the annual average installation scale of brackets required for utility-scale PV plants alone would reach at least 250-300 GW. Source: public information, SMM. Escalating Challenges Reshape the Development Logic of the Global PV Market ◼ The PV industry is undergoing resonating internal and external pressures. Internally, the global economic slowdown has become intertwined with social issues, while the industry itself has entered a rational development stage after rapid expansion, making slower installation growth a certain trend. Externally, global trade frictions continue to intensify, with the US, Europe, and other regions erecting nearly insurmountable cost gaps through barriers such as anti-dumping and countervailing duties as well as local content requirements. Challenge 1: Global Trade Frictions and Escalating Trade Barriers ◼ In recent years, countries have introduced a series of policies to build PV trade barriers and reshape the global competitive landscape of the industry. The US imposed “double anti-” duties of as much as 3,403.96% on PV products from four Southeast Asian countries, South Africa raised module tariffs to 10%, and Brazil increased out-of-quota tariffs sharply from 9.6% to 25% through a quota system. Market access requirements for PV in India and Türkiye have also become increasingly stringent. Meanwhile, new supply chain control rules represented by the EU’s Net-Zero Industry Act (NZIA) have extended trade barriers deeper into the industry chain. By setting red lines on “third-country dependence,” they have established quantitative standards for supply chain restructuring. This series of changes has reshaped the competitive dimensions of the international PV industry and significantly raised the threshold for PV product imports and exports. Source: public information, SMM. Challenge 2: New Dynamics in the PV Market, with Incentive and Restrictive Policies Coexisting Source: public information, SMM. Outside China Enterprises Pursue Multi-Dimensional Breakthroughs Through Internal and External Efforts ◼ The practices of solar panel mounting bracket enterprises in the US, India, and other countries show that the key to coping with policy shifts overseas lies in combining “service-oriented” and “high-value” strategies. First, vertically extending from single-equipment sales to a service ecosystem covering the entire life cycle. Second, deepening horizontally by continuously optimizing business structure and extracting value from higher value-added segments. Solution 1: Launch Dedicated Plans Closely Aligned with Government Policies and Local Demand ◼ The global PV industry has now entered a new stage deeply reshaped by both market forces and policy. The growth logic of enterprises is shifting from the past single dimension of relying on technology iteration and cost declines to multi-dimensional competition closely integrating complex policy environments with localized demand. Against this backdrop, the key to corporate success lies in accurately interpreting policy intentions and launching development plans aligned with both market and policy. Tata Power Renewable Energy Limited (TPREL) precisely aligned with India’s “PM Surya Ghar: Muft Bijli Yojana” and launched the dedicated “solar for every home” plan while continuing to provide customized PV solutions. In Q1 FY2026, it added 220 MW of new rooftop PV installations, surging 416% YoY. TPREL also actively responded to local manufacturing policies by establishing 4.3 GW of solar cell and module capacity, ensuring supply while avoiding import tariffs. Through the synergy of “policy response + local capacity + customized services,” TPREL has effectively translated policy dividends into market competitiveness and steadily consolidated its leading position in India’s PV market. Solution 2: Use Acquisitions as a Link to Integrate Resources and Extend from Single Products to the Entire Industry Chain ◼ Competition in the global PV industry has fully escalated into a contest of entire industry chain system integration capabilities, and enterprises’ growth engines are shifting from past reliance on advantages in a single segment to a new model of providing integrated solutions through resource integration. In 2025, Nextracker used acquisitions as the core to integrate resources across the full chain, successively acquiring foundation engineering firms such as Solar Pile International and Ojjo, module supporting firms such as Origami Solar, and electrical system firms such as Bentek, thereby building a full-chain product matrix spanning structural, electrical, and digital solutions. Its performance continued to surge, with revenue rising from $1.9 billion in FY2023 to $3.4 billion in the trailing twelve months ended September 2025. It ultimately announced its transformation into a comprehensive energy solutions provider by renaming itself Nextpower, targeting revenue of more than $5.6 billion in FY2030. This strategy enabled its successful transformation from a single-product supplier into an entire industry chain service provider, solidifying its leading position in the global market. Solution 3: Optimize Business Structure ◼ Trade protectionism in the current PV market continues to intensify, with various trade barriers being layered on one after another. In response to this challenge, PV enterprises can achieve the dual objectives of “compliant operations” and “market retention” through business structure optimization. To avoid the equity constraints on FEOC under the US OBBB Act, Canadian Solar Inc. initiated a US business restructuring with its controlling shareholder CSIQ: it established two new joint ventures to separately manage PV and energy storage businesses, with its own stake set at 24.9% to precisely meet compliance requirements. At the same time, it transferred out 75.1% equity in three overseas plants supplying the US market, receiving a one-off consideration of 352 million yuan. This move enabled Canadian Solar Inc. to retain earnings from the US market through dividends and rental income. In the first three quarters of 2025, it achieved net profit of 990 million yuan, while large-scale energy storage shipments rose 32% YoY. After the adjustment, it focused on strengthening its advantages in non-US markets and successfully stabilized its global business layout with a compliant structure, providing a typical model for the industry in addressing trade barriers. ◼ For Chinese enterprises, in the face of trade frictions and overseas capacity gaps, they need to break through via three paths—“building plants near core markets, reducing costs and improving efficiency through technological innovation, and coordinating both within and outside the industry chain”— by pursuing localized deployment in Southeast Asia, Mexico, and other regions to avoid frequent trade frictions; promoting standardized production and high-end product R&D to enhance competitiveness; and building a “China + overseas” dual-circulation supply chain to stabilize costs. However, overseas expansion still faces challenges such as land and environmental protection costs, talent shortages, and supply chain fluctuations, requiring enterprises to conduct sound risk assessments, leverage policy support, and improve overseas investment service systems. Only by deeply integrating scientific capacity deployment, technological innovation, and industry chain coordination can the mounting bracket industry upgrade from “Made in China” to “Globally Intelligent Manufacturing” and achieve long-term development under the “dual carbon” goals. New Requirements Under the 15th Five-Year Plan, New Topics for PV Enterprises ◼ In a global market full of uncertainties, the consistency and strength of domestic policy have provided fertile ground for the growth of China’s solar panel mounting bracket enterprises. The newly released 15th Five-Year Plan further clarified China’s path for energy and industrial development. On the one hand, the construction of a new-type power system centered on consumption capacity has been listed as a priority task, and green manufacturing and full life cycle management have been formally incorporated into the assessment system. On the other hand, technological self-reliance and self-strengthening together with new quality productive forces have replaced scale competition as the main line of the new development stage. This series of changes signals that the country is driving a profound shift from “competing on capacity” to “competing on system value,” with the core goal of achieving autonomous and controllable energy structure. It is estimated that after the Two Sessions, various departments will successively roll out detailed plans to promote the full implementation of the blueprint. ◼ Key implementation measures include: 1) establishing a “dual controls” system for total carbon emissions and carbon intensity, while improving incentive and restraint mechanisms; 2) vigorously developing non-fossil energy and promoting the efficient use of fossil energy, while strengthening the construction of a new-type power system to ensure stable supply of green electricity; 3) applying both “addition and subtraction” by fostering green and low-carbon industries and promoting energy conservation and carbon reduction in key industry; 4) in addition, accelerating the green transformation of production and lifestyles to consolidate the foundation for green development. ◼ From the perspective of regional development layout, during the 15th Five-Year Plan period, China’s PV industry will show characteristics of regional coordination: north-west China will become the strategic focus by virtue of its natural endowments, exporting electricity through cross-provincial green electricity trading and other means to achieve two-way matching between energy resources and power load; eastern regions, by contrast, will focus on local consumption by high-energy-consuming industries and zero-carbon industrial parks. Source: public information, SMM. ◼ SMM forecasts that China’s new PV installations are expected to reach 208 GW in 2025 and continue growing at an annual average rate of 9% over the next five years, exceeding 292 GW by the end of the 15th Five-Year Plan period. Utility-scale PV will remain dominant, with its installation share staying above 50%. Based on the same logic, we estimate that China’s PV installation market will maintain annual incremental growth of at least 100-120 GW. Source: public information, SMM. ◼ Focusing on China’s steel consumption market for solar panel mounting brackets, SMM estimates that annual steel consumption in China’s PV mounting bracket sector will average about 4-4.5 million mt from 2026 to 2030, accounting for about 30% of total steel consumption in the PV industry over the same period (based on 2026 data). Note: only installation demand for utility-scale PV mounting brackets is included, excluding distributed steel structures, replacement from existing asset depreciation, and exports. Source: public information, SMM. SMM Ferrous Consulting Based on its understanding of the global steel industry chain and regional markets, as well as its strong industry database and network resources, SMM is committed to providing clients with consulting services across the upstream, midstream, and downstream industry chain. Services include market supply and demand research and forecasts, market entry strategies, competitor cost research, and more, covering end-use industry from iron ore, coal, coke, and steel. SMM Ferrous has successfully served more than 300 Fortune Global 500 companies, China Top 500 companies, central state-owned enterprises, state-owned enterprises, publicly listed firms, and start-ups. 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On March 10, to accelerate the comprehensive utilization of electrolytic manganese residue, the Department of Energy Conservation and Comprehensive Utilization of the MIIT held a symposium in Beijing on March 9. The meeting noted that proper utilization of this complex residue is crucial for the high-quality development of the electrolytic manganese industry and regional green growth. The MIIT will conduct in-depth industry research, improve policy and standard systems, and promote advanced technologies to enhance utilization levels.

Shanghai has announced its 2026 allocation plan (third batch) for energy conservation and emission reduction special funds and ultra-long special treasury bonds. The funds will support national vehicle scrappage and replacement programs, covering both fuel vehicles and new energy vehicles, with a total of 43.232 million yuan allocated from the municipal energy conservation and emission reduction special funds.

Recently, the National Government Offices Administration issued a notice regarding the arrangements for energy and resource conservation in public institutions for 2026. The document mentioned the release of the industry standard "Guidelines for Carbon Emission Accounting in Public Institutions," which clarifies the boundaries, factor values, and methodological steps for carbon emission accounting in public institutions. It also involves calculating and issuing the total carbon emission and intensity targets for public institutions during the 15th Five-Year Plan period, as well as formulating specific implementation plans for carbon emission assessments in public institutions. The structure of energy use will be optimized by promoting the electrification of end-user energy consumption in public institutions and increasing the promotion and application of renewable energy sources such as solar power, along with green and low-carbon technologies and products. Efforts will be made to summarize, refine, and replicate the experiences and practices of building carbon-inclusive systems in public institutions, while encouraging exploration in cutting-edge areas such as carbon asset trading, virtual power plants, and green electricity consumption. The "2024-2025 Green and Low-Carbon Transformation Topic Collection" will be published, and a new round of topic applications will be launched.