Energy Transition

4 ways to store renewable energy that don’t involve batteries

Renewable energy cannot provide steady and interrupted flows of electricity – making energy storage increasingly important.

Renewable energy cannot provide steady and interrupted flows of electricity – making energy storage increasingly important. Image: Unsplash/thomasrichter

Ian Shine
Senior Writer, Forum Agenda

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  • The world is set to add as much renewable power over 2022-2027 as it did in the past 20, according to the International Energy Agency.
  • This is making energy storage increasingly important, as renewable energy cannot provide steady and interrupted flows of electricity.
  • Here are four innovative ways we can store renewable energy without batteries.

Giant bricks are not what most people think of when they hear the words “energy storage”, but they are a key element of a gravity-based system that could help the world manage an increasing dependence on renewable electricity generation.

Global renewable capacity could rise as much in 2022-2027 as it did in the previous 20 years, according to the International Energy Agency. This makes energy storage increasingly important, as renewable energy cannot provide steady and interrupted flows of electricity – the sun does not always shine, and the wind does not always blow. As a result, we need to find ways of storing excess power when wind turbines are spinning fast, and solar panels are getting plenty of rays.

Batteries would seem to be the obvious solution, but there are several obstacles to be overcome first, including high prices and a lack of standardization around technical requirements, as Deloitte points out.

Here are four innovative ways we can store renewable energy without batteries.

Total renewable electricity capacity additions, 2001-2027

Graph showing the renewable electricity capacity additions
Global renewable capacity could rise as much in 2022-27 as it did in the previous 20 years. Image: IEA

Gravity-based energy storage

The gravity-based system mentioned above has been devised by a company called Energy Vault. It uses the energy produced when renewable generation is high to raise 30-tonne bricks into the air inside a special building.

Why? Well, elevating the bricks results in them storing what is known as potential energy. This is similar to the kind of energy held in a spring when you stretch it – releasing the spring releases the energy stored. In the case of the Energy Vault system, once the raised brick is lowered, it releases kinetic energy that can be fed into power grids.

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The blocks are all stored within modular buildings that can be built up in units of 10 megawatt-hour to whatever size is required.

Pumped hydro energy storage

Hydropower is by far the world’s biggest source of renewable electricity generation.

Hydropower accounts for more than 60% of global renewable energy generation.
Hydropower accounts for more than 60% of global renewable energy generation. Image: Our World in Data

Pumped hydroelectric storage operates according to similar principles to gravity-based energy storage. It pumps water from a lower reservoir into a higher reservoir, and can then release this water and pass it downwards through turbines to generate power as and when required.

Water is pumped to the higher reservoir at times when electricity demand and prices are low. It is released when electricity demand rises.

Pumped hydroelectric storage. renewable energy
Pumped hydroelectric storage operates according to similar principles to gravity-based energy storage. It pumps water from a lower reservoir into a higher reservoir, and can then release this water and pass it downwards through turbines to generate power as and when required. Water is pumped to the higher reservoir at times when electricity demand and prices are low. It is released when electricity demand rises. Image: International Hydropower Association

Pumped storage hydropower makes up 94% of the world’s energy storage, the International Hydropower Association says, adding that studies suggest a significant potential to scale this up even further.

What about storing energy in compressed air?

It works by using surplus power to run a rotary compressor that condenses air. This highly pressurized air is then packed into an underground cavern or container and can later be released, heated and expanded in a turbine to generate power.

Compressed air energy storage. renewable energy
Compressed air energy storage involves moving highly pressurized air into underground caverns. Image: European Association for Storage of Energy

This approach has been in use since the 1870s, but there are only two commercial-scale CAES plants in operation worldwide – one in the US that was commissioned in 1991 and one in Germany that launched in 1978.

What is liquid air energy storage?

Instead of storing energy in compressed air, it can also be stored in liquid air. This is done using excess renewable energy to power a liquefier, which cools and compresses air into a liquid form at -196°C.

This is then stored in a tank until it is needed, at which point it can be released, heated and turned into a gas that powers electricity turbines.

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A key benefit of liquid air energy storage (LAES) is it uses existing technology that is readily available and has a lifetime of over 30 years. On the downside, changing the state of energy in this way leads to energy losses and reduces LAES efficiency to 50-70%. This is much less efficient than lithium-ion batteries, which are around 99% efficient, and could jeopardize the viability of LAES.

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