Ion age: why the future will be battery powered

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asked Aug 12, 2019 in 3D Segmentation by freemexy (47,810 points)

Ion age: why the future will be battery powered

In a world increasingly anxious about climate change, the surge in the generation of renewable energy over the past 20 years offers a sliver of hope. But the variable nature of wind and solar power means that storing energy until consumers need it has become the next big challenge. And so, large-scale battery installations are springing up across electricity grids around the world, to make them more flexible. In 2017, more than 1GW of power storage capacity was added around the world – a record, yes, but still a drop in the ocean of global energy demand.electrical power supply system

Electrical energy is converted to chemical energy when you charge a battery, and then the process is reversed when you draw power from it.

There are three main constituents of most batteries: two electrodes and some form of chemical medium called the electrolyte, which can be a liquid, gel or solid. To generate electricity, a chemical reaction takes place that sees electrons move from the negative electrode, called the anode, to the positive electrode, called the cathode.

When you charge the battery, the process is reversed, sending electrons back to the anode.There is around 500MW of large-scale battery power installed around the UK, a figure that is expected to double within three years, according to the analysts Aurora Energy Research. Almost all capacity uses lithium-ion.

Globally installed power is expected to top 50GW by 2020 – and surge to almost 1,000GW by 2040, according to Bloomberg NEF. That would equate to about 7% of the world’s energy capacity.In the UK, battery installations are primarily being deployed to supply services to National Grid. Such ancillary services are increasingly important to help match supply and demand as a growing amount of intermittent wind and solar power comes online.

There are also the beginnings of “hybrid” renewable energy power plants, where batteries are installed alongside solar farms and windfarms. This is particularly important for the economics of solar farms, which can push down power prices around midday by peaking at the same time. Instead of exporting immediately, hybrid farms can store power to sell later at higher prices.

In other parts of the world, such as South Australia, batteries are being used to make the grid more resilient and avoid blackouts. Crucially, batteries are not yet suitable and do not make economic sense for interseasonal storage – that is, storing up solar power in summer to release in winter.

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