Exploring The Different Types Of Battery Energy Storage Systems
If you are looking to branch out into the world of sustainable energy production for your home or office space, then you have most likely come across the concept of battery energy storage systems.
Battery storage technologies are vital in transitioning to a more sustainable future for the production of power for each home in the UK. This sort of technology will be at the forefront of the move away from fossil fuels.
Before this can happen, it is important that people across the country understand the various different types of battery energy storage systems and what they can do for you in the short and long term.
What Is A Battery Energy Storage System?
Battery storage, also known as battery energy storage systems (BESS), are tools that allow for the accumulation of energy derived from renewable sources such as wind energy, allowing it to be stored and subsequently discharged during peak demand periods.
Currently, lithium-ion batteries are the preferred choice for energy storage in devices such as mobile phones and electric vehicles. Additionally, they have proven highly advantageous for helping electricity grids meet the growing demands of renewable energy.
Battery energy storage systems are pioneering the development of sustainable energy production worldwide and have shown that the world does not have such a necessity for fossil fuels as we once thought.
Benefits Of Battery Energy Storage
Battery storage systems are going to be a key technology in the future of home electricity production for many years to come. This could potentially mean that people are producing their own electricity for many years to come.
This includes times when the sun is no longer shining for solar panels to draw power and wind blowing for wind farms. This is the idea behind battery energy storage systems, as they aim to supply you with power throughout the day and night.
The national grid is becoming more and more in demand as more people join the housing market and more buildings need to be built.
Types Of Battery Storage Systems
As we have stated briefly above, there are various different types of battery storage technology for you to choose from depending on which you feel is better for your living and financial situations.
If you are in search of a new battery energy storage system, there are plenty of new software developments that have allowed for vast progress in the battle against fossil fuels and carbon production.
Compressed Air Energy Storage
These types of systems are typically installed into a large chamber and will work by trapping and compressing air by using surplus electrical power. When power is needed, the compressed air will flow through a turbine to produce electricity.
The purpose of this storage technique is to help you manage the supply from the main supply grid. Having your own electricity stores can massively help in reducing your energy bills each month.
Mechanical Gravity Energy Storage
During times of high energy (e.g. when there’s high wind or abundant sunlight), the surplus energy is used to lift objects, such as large weights, against the force of gravity. This lifting action stores the potential energy within the system.
When the demand for electricity exceeds the current generation capacity, the system releases the stored potential energy by allowing the heavy objects to drop under gravity.
As they descend, their potential energy is converted back into electricity through a generator, thus supplying power to the grid when it’s needed. This has been one of the most effective forms of energy storage that has been discovered in recent years.
Flow Batteries
Flow batteries are a type of rechargeable electrochemical energy storage system used to store electricity in large-scale applications, such as grid-level energy storage and renewable energy integration.
They differ from traditional batteries in that they store energy in liquid electrolytes contained in external storage tanks, rather than within the battery cell itself.
During charging and discharging, the flow battery operates by circulating the liquid electrolytes through the electrochemical cells.
When charging, electricity from an external power source is used to drive a chemical reaction in the electrolyte, which stores energy in the form of chemical bonds. When discharging, the stored energy is released as electricity by reversing the chemical reaction.