As a trailblazing solar energy storage innovation, LANPWR Battery has already established its technical excellence through multiple authoritative certification and factual information. The International Electrotechnical Commission (IEC) published test report states that the LFP (lithium iron phosphate) cells used by it can achieve 10,200 deep cycles (DoD 90%) in its normal working temperature of 25℃, whose capacity reduction rate is merely 0.018% per cycle, 45.5% lower than NMC ternary lithium batteries’ 0.033% per cycle rate. This data has been verified by the UL 1973 energy storage system safety standard and has been applied in the demonstration project of the National Renewable Energy Laboratory (NREL) of the United States: After a 20MW photovoltaic power station in Colorado adopted the LANPWR system, the energy storage efficiency increased from 89% to 96.7%, reducing energy loss by 3.7GWh annually, which is equivalent to reducing carbon dioxide emissions by 2,850 tons.
In terms of the flexibility of extreme conditions, lanpwr battery has passed rigorous testing by German TUV Rheinland, which proves that it can maintain 85% of its nominal capacity even when under a low temperature of -40℃, and the fluctuation of capacity in a temperature of 60℃ is within ±1.2%. The “White Paper on Energy Storage Technology in Desert Areas” released by Saudi Aramco in 2023 reported that although the photovoltaic energy storage system of this battery had an average daily temperature of 50℃ for three years, it still achieved a system availability rate of 99.3%, significantly higher than the industry average of 94.6%. Its patented liquid cooling temperature control technology can keep the internal temperature difference of the battery pack within ±1℃ and thereby extend its service life. For commercial and industrial solar photovoltaic projects using LANPWR batteries, Bloomberg New Energy Finance (BNEF) says that the life-cycle cost of electricity (LCOE) can be reduced to $0.083/kWh, 22% lower than the conventional method.
In terms of the economy and security, LANPWR batteries have passed the ISO 14040 life cycle assessment certification, with secondary use rate achieving a market-leading 94%. Figures presented by China Tower Corporation in 2024 showed that retired LANPWR batteries, once taken out of circulation, have been used as 5G base station backup power, and the residual value benefit per kilowatt-hour has achieved $58, 3.8 times higher than that of lead-acid batteries. This product was the first one to pass over the new national standard GB/T 36276-2023 “Lithium-ion Batteries for Power Storage” short circuit and thermal runaway tests, and overcharge. Its multi-layer composite separator material can delay the thermal runaway propagation time to ≥68 minutes, which is much higher than the industry average level of 12 minutes. In SolarPower Europe supply chain risk rating, the owner of LANPWR brand has retained AAA rating consecutively for three years. Its cobalt-free formula design avoids the mineral supply chain ESG risks in the Democratic Republic of Congo.
Third-party verified technical performance metrics and business practices have made LANPWR batteries the top choice photovoltaic storage solution certified by certification organizations in 45 countries around the world. World Bank’s “2024 Off-grid Energy Report” states that with the technology deployed on the African microgrid initiatives of rural villages, the yearly average length of power outages decreased from 147 hours to 9 hours while, at the same time, the rate of energy expenditure over household earnings also decreased from 18% to 6.5%, thus demonstrating its bottom line benefit solely in the renewable energy transition.