Future battery charging technology is the current trend of all manufacturers in this field.
Devices using batteries are growing daily, with the global battery market at $ 83 million in 2014.

According to research by Fredonia Group, the battery market will grow at a rate of 7.8 per year,
The peak will reach 2019 as it continues to spread.

Rechargeable lithium batteries are the largest part in addition to hybrid and electric vehicle batteries and electrical appliances.
With the increasing needs for batteries, engineers are creating smaller, longer-lasting batteries and looking for new charging technologies.

Here are some of the Future battery charging techniques:

solar power :

Solar energy is currently used in everything starting from medical devices,
Remote controlled windows and display screens in stores.

In addition, it is being used as a way to reduce heating and lighting cost at homes and offices.
The photovoltaic cells were very large and ineffective but now they can be made smaller, lighter, and more flexible.
Where electricity is produced by a relatively weak light.

Currently, many backpacks contain solar panels have USB ports to charge batteries while traveling.
There are lightweight and folding solar panels that can charge several devices at the same time.
This technology is useful in the medical field where medical devices can only be charged using room lighting, thus increasing the supply of electricity.

Wind Energy :

To produce energy in this type, a turbine is driven by the wind and connected to a battery by resistance.
Wind energy was used to provide energy for boats and marine systems,
There is also a portable wind charger designed to charge portable batteries.

There are also hybrid devices using solar energy and wind power for charging.
Where the turbine can be moved by hand in the absence of wind.

Hydropower:

Hydropower uses water flow energy to generate electricity. The location is usually very specific because you cannot carry the water stream with you.
Seoul, Korea, has launched a series of water-powered charge stations to charge citizen`s and visitor`s mobile devices on the move.

However, a portable electromechanical charger, lightweight enough to be carried in the bag, was invented and placed in a water current to generate electricity,
Where one hour charging generates about ten hours of use according to the manufacturer.

Friction energy:

Friction raises the electrons causing it to move between objects which generates electricity, such as the electricity generated by pulling a jacket on the head hair.
Researchers have recently developed a charging method supported by two pieces of material. Metal and other special plastic.
Both are encapsulated in nanoparticles to increase friction surface area. They can be worn in clothes or shoes to generate electricity from daily movement.

The energy of friction for shipment has enormous implications for the real world where the daily actions of optimism can be harnessed with our devices.
For example charging battery can be done by rubbing the device with our clothes in the pocket or wallet.

Conclusion :

Our reliance on the devices we use every day is not about to change, but the technology we use to keep them powered is developing rapidly.
The new types of batteries and new ways to harness the natural energy in the world around us will be the comming way to keep battery charging every day.

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Future Battery charging technology

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