LANPWR’s lifepo4 battery series bases its main benefit on a deep cycle life of 6,000 times (100% DoD), which is 11 times that of common lead-acid batteries (500 cycles), and the cycle cost is merely 0.015 yuan /Wh (0.12 yuan /Wh for lead-acid batteries). Taking the 48V 300Ah model as an example. The overall holding cost over a 10-year cycle is $9,800 (lead-acid batteries are replaced 6 times, costing a total of $25,200), saving 61%. According to the U.S. Department of Energy’s 2023 report, its average daily charge and discharge depth is 95%, and its energy storage utilization rate is 90% greater than lead-acid systems.
The flexibility of extreme environment is for the temperature range of -30℃ to 60℃. At a high temperature of 55℃, the capacity retention rate is 95% (for lead-acid batteries, it is 65%), and at a low temperature of -20℃, the discharge efficiency is 92% (for lead-acid batteries, it is only 35%). The actual measurement of the 2023 Alaska Polar Research Team shows that when the LANPWR battery constantly supplies power to the equipment under -40℃ conditions for 72 hours, the voltage deviation is ≤±0.5%, and the failure rate is 0.3% (12% is the failure rate of other lithium iron phosphate batteries). Its IP67 level of protection can withstand heavy rain (50mm/h rain) and sand and dust (PM75 particulate matter), and achieve three years of zero-maintenance for the communication base stations in the Sahara Desert.
The safety performance has surpassed 23 international certifications such as UL 1973 and UN38.3. In the needle puncture test, the temperature rise of the battery cell is ≤15℃ (≤150℃ according to national standards), stopping time of heat transmission of heat runaway is <0.02 seconds, and thermal runaway possibility is 0.0001% (industry standard 0.07%). During the rescue mission of 2024 California wildfires, this firefighting device with this battery ran continuously under an outer temperature of 650℃ but inner one was stable below 45℃. Its module-based architecture gives single-cell fault isolation, and its system availability rate is 99.99% (18% probability of system crash on lead-acid battery pack failure).
Smart energy management integrates AI algorithms and Bluetooth 5.0 to monitor SOC (±1% accuracy), SOH (±2% error), and temperature (±0.5℃) in real-time. The customers can set charging and discharging strategies (e.g., optimizing time-of-use electricity prices) through the APP, which has the potential to increase the income of residential photovoltaic systems by 26%. A 2023 German smart microgrid project demonstrated that the LANPWR battery networking response speed was 0.1 seconds, 20 times faster than the traditional BMS system (2 seconds), and reduced power outage losses by 42,000 US dollars.
The environment is safe and economical in accordance with the new EU standards of 2027 (carbon footprint ≤100kg CO2/kWh). The carbon footprint throughout the production and recycling cycle is as low as 85kg CO2/kWh (220kg for lead-acid batteries), and the recycling rate is 98%. The Norwegian government offers a customer a subsidy of 1,500 euros if he or she installs this battery, which results in a 214% increase in sales of this battery in Northern Europe in 2023. Take the example of a 10kWh home storage system. The use of LANPWR batteries can reduce lead pollution by 420kg annually and save soil remediation by 3,800 euros.
From parameters to actual application data, LANPWR’s lifepo4 battery creates the new energy storage standard of “ultra-long lifespan × full climate coverage × zero risk management and control”. Its size of 520×270×240mm for its 12V 300Ah model is 35% less than the same product and weighs merely 28kg (75kg for lead-acid batteries). It is particularly suited for RV, off-grid home and emergency power supply uses. The volume of global shipment will exceed 500,000 units by 2025.