China Vanadium Consumption Set to Rise in 2026 as VRFB Demand Accelerates

Vanadium

China vanadium consumption is expected to rise in 2026 as vanadium redox flow batteries, steelmaking, lithium iron phosphate cathode materials and denitration catalysts increase demand. The strongest growth is likely to come from VRFB-based energy storage, where projects are entering a more concentrated construction and commissioning phase.

China vanadium consumption reached 125,900t of vanadium pentoxide equivalent in 2025, up 6.1% from 2024. The market is now shifting from a steel-dominated structure toward a more diversified demand base.

China vanadium consumption still depends heavily on steel, but the share of energy storage has expanded quickly. Steel accounted for 70.9% of total demand in 2025, down from 87.9% in 2021. Energy storage rose to 20% of total use from only 4% over the same period.

This change is strategically important for vanadium producers. Demand is no longer driven only by construction steel, rebar and alloy additions. It is increasingly tied to long-duration energy storage, grid stability, batteries, catalysts and higher-value industrial applications.

VRFB Storage and Steel Demand Drive the 2026 Consumption Outlook

Vanadium demand from VRFB energy storage is expected to increase sharply in the second half of 2026. China’s National Development and Reform Commission and National Energy Administration issued a notice on 30 January to improve the generation-side capacity price mechanism, supporting longer-duration storage.

This policy direction matters because VRFB technology is better suited to long-duration applications than many short-duration battery systems. VRFBs offer long cycle life, high safety, deep-discharge capability and easier electrolyte reuse.

China’s VRFB installations in 2026 are preliminarily estimated at 4-5GWh. This forecast reflects projects already under construction and the availability of high-purity vanadium for electrolyte production.

That installation level would require around 32,000-40,000t of V2O5 equivalent. This would represent an increase of 8,000-16,000t from the previous year, making VRFBs the largest source of incremental vanadium demand.

The growth builds on rapid progress in 2025. VRFB projects with completed electrolyte filling totalled about 3,037.5MWh last year, up 1,027.3MWh from 2024. China’s cumulative VRFB installed capacity reached about 6,064.5MWh by the end of 2025, with an average duration of 4.12 hours.

The market is now moving from pilot-stage expansion to larger system deployment. As more long-duration storage projects reach construction and commissioning, vanadium electrolyte demand could become more predictable.

Steel remains the largest end-use sector. Vanadium demand from China’s steel industry is expected at 92,000-95,000t in 2026, up 3,000-6,000t from 2025.

The increase is tied to stronger demand from machinery, energy, shipbuilding, automotive and rail sectors. These ferro-vanadium end-use segments are expected to grow by around 1.2% in 2026.

The steel demand signal was already visible in the first quarter. Steel-sector vanadium consumption reached around 22,600t, up 1,800t from a year earlier.

Rebar could also provide support. Output of higher-grade steel reinforcement bar is expected to rise as infrastructure investment accelerates. Production licence rules for construction rebar took effect on 1 April, while quality traceability requirements have expanded.

These rules should raise the share of vanadium-nitrogen micro-alloyed hot-rolled rebar. That would support demand for vanadium-nitrogen alloy, especially in higher-strength construction products.

The 2025 steel data show a more complicated picture. Vanadium consumption in the steel sector reached around 89,300t, up 1,700t from 2024. However, vanadium-nitrogen alloy consumption fell by 3.8% to 36,690t because rebar’s share of vanadium use declined.

China’s rebar output fell to 186.3mn t in 2025, down 4.5% from a year earlier. This reduced vanadium demand from traditional construction steel.

Ferro-vanadium performed better. FeV50-equivalent consumption rose by 10.4% to around 39,985t, supported by stronger downstream output in several industrial sectors.

Automotive production reached 34.778mn units in 2025, up 9.8%. Civil steel shipbuilding totalled 52.295mn deadweight tonnes, up 18%. Excavator output rose by 17% to 379,643 units.

Machine tool output also increased. Metal-cutting machine tool production rose by 9.7%, while metal-forming machine tool output increased by 7.2%. These sectors helped offset weakness in rebar.

Vanadium intensity also rose. China’s vanadium use per tonne of crude steel increased to 51g of vanadium metal equivalent in 2025 from 48g in 2024. Rebar intensity edged up to 152.5g, while other steel products rose to 26.6g.

LFP cathode materials will provide another smaller but fast-growing demand source. Vanadium consumption from LFP cathodes is estimated at 2,000-2,500t in 2026, assuming a typical 0.2% V2O5 addition rate.

That would be up by 1,000-1,500t, representing growth of 100-150%. The base remains small, but the rate of increase is significant.

Denitration catalysts should also support demand. Chemical-sector vanadium consumption is expected at around 7,000t in 2026, up about 500t, or 7.7%. Demand will be supported by catalyst replacement, new coal-based thermal power projects and higher sulphuric acid output.

In 2025, chemical-sector vanadium use was around 6,500t, up 200t from 2024. Titanium-alloy-related consumption fell by around 400t, tracking weaker Chinese titanium product exports.

Supply Growth Remains Limited by Feedstock and Cost Pressure

China’s vanadium supply remains highly concentrated, but output growth is not straightforward. The country accounted for 68.8% of global vanadium capacity in 2025 and 72.4% of global production.

China’s total vanadium capacity reached 277,600t in 2025. Actual output was 163,900t, down 900t from 2024.

The production base is dominated by vanadium slag. Output from vanadium slag reached 141,300t in 2025, broadly unchanged from the previous year.

Some producers reduced supply. Xinjiang Da’an and Yunnan Yukun did not produce, cutting combined output by about 8,000t. Other producers, including Chengsteel, Desheng and Dagang, raised output by around 15%, offsetting part of the loss.

Stone-coal-based vanadium output fell more sharply. Production declined to 7,600t in 2025, down 2,600t from 2024, as lower prices left all stone-coal producers loss-making.

This route remains highly price-sensitive. At current price levels, only one large-scale stone-coal producer is operating, with output of around 100-120 t/month of ammonium metavanadate on a V2O5-equivalent basis.

A Shaanxi-based producer with capacity of 300-350 t/month has been suspended since early 2026 because of safety issues. It is unlikely to restart in the first half.

Vanadium flake prices rose to 83,000-84,000 yuan/t in March, prompting some stone-coal producers to consider restarts. However, current prices still appear insufficient to drive a large supply response.

Even when prices approached 110,000 yuan/t in 2023, stone-coal-based output only reached about 11,000t. This suggests that 2026 output growth from stone coal will likely remain limited.

Secondary resources are becoming more important. Vanadium output from spent catalysts and other secondary sources rose to 15,100t in 2025, up 1,900t from 2024.

This included about 6,700t from alumina by-product recovery, up around 1,700t. Output from spent catalysts and petroleum residues stayed broadly stable despite lower vanadium prices.

The reason is co-product economics. Vanadium is often recovered alongside molybdenum and tungsten from secondary feedstocks. Higher molybdenum and tungsten prices supported operating rates and helped keep secondary recovery viable.

Secondary output is expected to remain broadly unchanged in 2026. Feedstock availability is relatively stable, but China’s restrictions on solid-waste imports since 2017 limit the potential for major raw material growth.

Vanadium slag-based supply may edge higher in 2026, but feedstock constraints create uncertainty. Qinhuangdao Baigong completed a 10,000 t/yr V2O5 line in early 2026 and is ramping toward normal operations. Its 2026 output guidance is around 5,000t.

However, tighter domestic feedstock availability could offset this addition. Vanadium-titanium magnetite supply in the Panzhihua area is particularly constrained, potentially cutting output by about 4,500-5,000t of V2O5 equivalent.

Producers in Sichuan and Yunnan may need to source vanadium-titanium magnetite from the Chengde area or increase imports to keep output in line with 2025. A northeastern steelmaking-based vanadium producer has also reduced vanadium-titanium magnetite imports since December 2025.

This creates a cautious supply outlook. China’s vanadium output may edge higher in 2026, but the increase depends on whether new slag-based capacity can offset feedstock tightness and further weakness in stone-coal production.

The market therefore faces a potential demand-led tightening risk. VRFB demand is rising quickly, steel demand is improving modestly and smaller sectors are growing. Supply growth, meanwhile, remains constrained by feedstock, cost pressure and limited secondary resource availability.

For vanadium producers, the key opportunity lies in high-purity electrolyte-grade material. VRFB demand requires reliable vanadium quality, stable supply and long-term availability. Producers that can supply battery-grade vanadium will be better positioned than those focused only on metallurgical demand.

For steel users, the issue is price exposure. If VRFB demand absorbs more vanadium units, ferro-vanadium and vanadium-nitrogen alloy buyers could face stronger competition from the energy storage sector.

For energy storage developers, the issue is raw material security. VRFB growth depends on enough high-purity vanadium to support electrolyte production. Supply constraints could affect project economics if demand accelerates faster than conversion capacity.

The Metalnomist Commentary

China’s vanadium market is entering a new phase where steel remains the base, but VRFBs set the growth direction. The strategic tension in 2026 will be whether constrained supply can keep pace with energy storage demand without pricing steel users out of the market.