TCpowertec provides the latest household lithium-ion battery storage system.
Compared with traditional lead-acid batteries, lithium-ion batteries are superior to lead-acid batteries in many aspects.
The energy density of lithium-ion batteries is much higher than traditional lead-acid batteries, and the charging speed of lithium-ion batteries is 3 times faster than lead-acid batteries. For the charging depth, usually, in one cycle, 85% or more of the total capacity of the lithium-ion battery can be used, but the discharge capacity of the lead-acid battery usually does not exceed 50%. The number of discharge cycles of lithium-ion batteries is several times that of lead-acid batteries, effectively prolonging the service life of lithium-ion products.
Taking into account the many advantages of lithium-ion batteries, longer service life, higher efficiency, and higher energy density, installing lithium-ion batteries is a wise choice. Although the initial investment is relatively high, in the long run, the cost of lithium-ion batteries will be much lower than lead-acid batteries.
TCpowertec provides a complete set of household lithium-ion battery system solutions, which can provide households with battery systems ranging from 3KWH to 40KWH, and can be matched with corresponding PV module systems to provide families with sufficient clean energy.
As the cost of fossil energy such as coal and oil increases, the price of thermal power will become more expensive, while the cost of solar power generation will become lower, but the injection of a large amount of solar power into the grid will bring a greater impact. The combination of solar power generation and energy storage systems can output constant power as required, which overcomes the shortcomings of unstable power of photovoltaic systems.
TCpowertec’s large-scale photovoltaic energy storage system consists of three parts: photovoltaic power generation unit, control/inverter unit, and energy storage unit. It can be operated in single or multiple units in parallel to meet the needs of different customers. Adapt to a variety of application scenarios, such as industrial and commercial solar storage, large-scale photovoltaic power stations, severely limited photovoltaic power generation areas, islands, areas without electricity, etc.; widely used in power storage, backup power, peak regulation, frequency modulation, and microgrids. It can not only operate in grid-connected power generation but also in isolated grid operation while supporting photovoltaic access and seamless switching between on and off-grid.