Wholesale Lifepo4 Battery
Wholesale lifepo4 battery have high energy density, long lifespan, high safety, low cost of ownership and a low environmental impact. They also double the runtime of lead acid batteries and are much lighter.
Unlike lithium ion, they are safer and cannot overheat or catch fire. They can be discharged and recharged to 100% of their rated capacity without damage.
High Energy Density
There’s a lot of demand for batteries that can store more energy in a smaller and lighter package. From smartphones and laptops to electric cars and even emerging technologies like electric VTOL aircraft, most battery-powered devices would benefit from a reduction in size and weight.
The more power a battery can emit in relation to its size, the higher its energy density is. However, it’s important to note that energy density is not the same as power density. The former measures Wholesale lifepo4 battery how much energy the battery can hold, while the latter relates to how fast it can deliver that energy.
Lithium iron phosphate batteries, also known as LIFO or LFP batteries, have one of the highest energy densities of all lithium-ion battery types. Their high energy density makes them suitable for a wide variety of applications. The energy density of a battery is measured in watt hours per kilogram.
Long Lifespan
Lithium iron phosphate (LiFePO4) batteries are now the safest, most eco-friendly, and longest-life lithium battery chemistry. They are made with abundant iron, and do not contain the limited metals nickel and cobalt used in previous lithium chemistries.
Depending on how often and how much the battery is charged and discharged, LiFePO4 batteries can last up to six years. However, if they are left in a discharged state for too long, the battery lifespan will be significantly reduced. It’s important to use the right battery charger for your lithium batteries to keep their lifespan as high as possible.
Additionally, it is recommended to avoid deep discharges as they can cause the battery cells to swell and lose capacity. You should also store lithium batteries in a cool place as high temperatures can reduce the battery’s lifespan. LiFePO4 batteries are the most popular form of lithium-ion battery in backup power and solar systems. They have a longer lifespan and higher energy density than other battery chemistries and are safer than lead-acid batteries.
High Safety
Lithium iron phosphate (LiFePO4) is the safest lithium battery type and has more than 4x the cycle life of other lithium batteries. Unlike NMC or other lithium batteries that can explode in extreme conditions, LiFePO4 has excellent thermal and chemical stability. This prevents a condition known as thermal runaway, in which the battery overheats and catches fire.
In addition, LiFePO4 has a much wider temperature range than other lithium batteries. While NMC batteries can only be used in temperatures between 32degF and 140degF, LiFePO4 can be used in a wide variety of temperatures.
LiFePO4 is also non-toxic, making it safer for your health and the environment than lead acid batteries. In fact, the cathode material of a LiFePO4 battery is made from an abundant natural mineral called olivine. It’s also non-flammable, meaning that it won’t catch fire – even if punctured. This is a massive improvement over other lithium batteries, which can explode and cause fires in extreme situations.
Low Cost of Ownership
The cost of energy storage depends on a complex mix of factors. Initial costs, life expectancy, weight, volume, temperature sensitivity, maintenance requirements and installation location all impact system economics.
Lithium iron phosphate batteries (LiFePO4) offer the lowest total cost Wholesale lifepo4 battery of ownership over the lifetime of the battery. In addition to their lower up-front costs than lead acid or gel batteries, lithium batteries require fewer maintenance visits and last up to 10x longer.
Unlike lithium-ion batteries, LiFePO4 cells experience much slower capacity loss over time (aka greater calendar-life). This makes them a great choice for backup power systems and solar energy systems. They are also an excellent option for telecom base stations, where batteries are subjected to frequent cycling and high instantaneous discharge currents. And they’re safer than traditional batteries, with no risk of thermal runaway or fire.
Low Self-Discharge Rate
Battery self-discharge is a natural phenomenon that occurs when a battery loses capacity in an open circuit state. It happens due to irreversible side reactions that occur in the positive and negative electrode materials and electrolyte. The side reactions are intensified by environmental conditions, especially temperature.
The rate at which a lithium battery self-discharges depends on the quality of its SEI film, the material that protects the negative electrode and ensures that the positive and negative electrodes do not contact each other. SEI films that are poorer in quality have higher self-discharge rates than those that are of better quality.
When choosing a battery for an energy storage system, it is important to consider its self-discharge rate. High discharge rates are necessary for applications such as power tools or emergency backup power systems, where the battery will be used to deliver short bursts of power.
Low Environmental Impact
Batteries are the power source behind everything from bicycles to electric cars, and even telephones and windmills. They make our devices work, but their production doesn’t come without environmental costs. The extraction of the raw materials, lithium and cobalt, requires a lot of energy. For every tonne of lithium mined, 15 tonnes of CO2 are emitted.
Despite these concerns, the choice to use lithium-ion batteries is not without its benefits for people and the environment. This is especially true for Lithium Iron Phosphate (LiFePO4) batteries, which have a lower carbon footprint than other lithium ion battery technologies.
When discarded, these batteries become electronic waste or “e-waste.” This type of waste has been deemed one of the most pressing issues facing our world, and it can be hazardous to human health when improperly deconstructed or burned to harvest small valuable components. The best option for a safe and environmentally responsible way to dispose of batteries is to recycle them at certified battery electronics recyclers instead of throwing them in the trash or placing them in municipal recycling bins.