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New paradigm of zero carbon energy storage: How can Zeruoka reconstruct the global energy value chain?From "Green Power Manufacturing" to "Recycling and Regeneration", Cracking the Full Life Cycle Carbon Neutrality Password of Energy Storage Industry 1. Zero carbon breakthrough under global policy game The carbon footprint tracing requirement of the EU's "New Battery Regulation" is forcing Chinese companies to shift from "low-cost manufacturing" to "low-carbon technology output". Zeruoka draws on the "zero carbon factory" model of Ningde Times to build the world's first "wind solar hydrogen storage integrated" zero carbon industrial park in Golmud, Qinghai: Green power direct supply: 90% of the park's electricity comes from the supporting 1.2GW photovoltaic power station and 200MW/800MWh energy storage system, reducing CO ₂ emissions by over 500000 tons annually; Hydrogen energy peak shaving: The electrolytic water hydrogen production unit converts excess green electricity into hydrogen gas, which is supplied to fuel cells in the park and surrounding chemical enterprises, achieving cross energy form synergy; Closed loop recycling: Jointly establish a battery recycling production line with Greenmei, with a lithium recovery rate exceeding 96% and a nickel cobalt manganese recovery rate exceeding 99%, meeting the EU battery passport certification standards. This model not only reduces the carbon tariff cost of exports to the EU, but also becomes the "green card" of Southeast Asia and the Middle East markets. 2. Material Innovation: A Dual Revolution of High Safety and Low Cost Zeruoka launches the world's first "Lithium Manganese Iron Phosphate+Hard Carbon Negative Electrode" energy storage dedicated battery cell, breaking through the bottleneck of traditional technology: Performance leap: Energy density reaches 220Wh/kg (industry average 180Wh/kg), cycle life exceeds 12000 times, and capacity retention rate at -30 ℃ is 85% (compared to Tesla Megapack); De precious metalization: replacing some iron with manganese, reducing costs by 30% compared to ternary batteries, and completely eliminating dependence on cobalt and nickel resources; Solid state electrolyte pre research: Cooperating with the Chinese Academy of Sciences to develop sulfide solid-state batteries, the thermal runaway temperature has been raised to over 300 ℃, and the mass production target by 2026 is aimed at the high-end energy storage market. 3. Scenario based solution: Zero carbon coverage from households to the power grid Household energy storage: In response to the European energy crisis, an integrated system of "photovoltaic+energy storage+intelligent management" has been launched, supporting virtual power plant (VPP) access. Users can earn over 1500 euros annually through peak valley arbitrage; Grid level energy storage: The world's largest single station 500MW/1GWh liquid cooled energy storage power station has been built in Ningxia, using a self-developed intelligent temperature control system to reduce energy consumption by 40% and help the northwest wind and solar energy consumption; Industrial microgrid: Customize a hybrid solution of "green electricity+energy storage+hydrogen energy" for high energy consuming enterprises, such as building a 200MW system for a certain steel group, with an annual carbon reduction equivalent to planting 5 million trees. |
