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British researchers have found a new type of lithium battery, as an energy storage device for photovoltaic systems, which can increase the energy storage efficiency to 95%, far more than 80% of traditional lead-acid batteries, which is expected to greatly reduce the cost
of solar power generation.
Most of the current photovoltaic systems also use lead-acid batteries as energy storage devices, but in comparison, lithium iron phosphate battery replacement can give full play to its advantages, including improving energy storage efficiency, extending service life, reducing costs and so on
.
This type of lithium battery is used as an energy storage device, which can improve energy efficiency to 95%, far more than 80% of traditional lead-acid batteries, and has a service life
of 1600 charge and discharge.
The project was conducted in collaboration between the University of Southampton and REAP systems
.
Although this new lithium battery LiFePO4 needs further testing
before it can be put into commercial photovoltaic power generation systems.
But research has shown that LiFePO4 batteries have the potential to improve the efficiency of solar power systems and help reduce their installation and maintenance costs
.
The researchers are doing further project research
.
British researchers have found a new type of lithium battery, as an energy storage device for photovoltaic systems, which can increase the energy storage efficiency to 95%, far more than 80% of traditional lead-acid batteries, which is expected to greatly reduce the cost
of solar power generation.
Most of the current photovoltaic systems also use lead-acid batteries as energy storage devices, but in comparison, lithium iron phosphate battery replacement can give full play to its advantages, including improving energy storage efficiency, extending service life, reducing costs and so on
.
This type of lithium battery is used as an energy storage device, which can improve energy efficiency to 95%, far more than 80% of traditional lead-acid batteries, and has a service life
of 1600 charge and discharge.
The project was conducted in collaboration between the University of Southampton and REAP systems
.
Although this new lithium battery LiFePO4 needs further testing
before it can be put into commercial photovoltaic power generation systems.
But research has shown that LiFePO4 batteries have the potential to improve the efficiency of solar power systems and help reduce their installation and maintenance costs
.
The researchers are doing further project research
.
