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Energy storage

Power storage is the storing of some form of energy that can be drawn upon at a later time to perform some useful purpose.

Table of contents
1 History
2 Reasons
3 Types
4 See also

History

Power storage as a natural process is billions of years old - the energy produced in the initial creation of the Universe has been stored in stars such as our Sun, and is now being used by humans directly (e.g. through solar cells) or indirectly (e.g. by growing crops). As a purposeful activity power storage has certainly existed since pre-history, though it was often not recognized as such. An example would be the use of logs or boulders as defensive measures in ancient forts - the logs or boulders would be collected at the top of a hill, and the energy thus stored would be released as a defense against invaders.

A more recent application was the control of waterways to power water mills for processing grain or powering machinery. Often complex systems of reservoirs and dams were constructed to store and release water (and the power it contained) when required.

Power storage only became a major concern, however, with the introduction of electricity. Unlike the other common power sources at the time, such as natural gas, electricity had to be used as it was generated. This meant that changes in demand were difficult to cater for without either cutting supplies at times, or having expensive excess capacity.

An early solution was the battery, but this is of limited use both due to its small capacity and relatively high cost. A similar solution with the same type of problems is the capacitor.

Some areas of the world (Washington and Oregon in the USA, and Wales in the United Kingdom are examples) have used geographic features to store large quantities of water in reservoirs at the top of hills, using excess electricity at times of low demand to pump water into the reservoirs, then letting the water fall through generators to retrieve the energy when demand peaks.

A number of other technologies have been investigated, but to date no widely available, affordable solution to the challenge of mass power storage has been found.

Reasons

Load Levelling

The demand for electricity from consumers and industry is constantly changing, broadly within the following categories:

There are currently three main methods for dealing with changing demand:
The problem with relying on these last two methods in particular is that they are expensive, making poor use of expensive generating equipment. Power Storage is a potential solution to this. Power plants would be able to run at their peak efficiency 24 hours a day throughout the year. At times when demand was lower than the total amount generated the surplus could be diverted to some storage mechanism. This storage resource could then be tapped when demand exceeded supply, without having to use additional expensive resources. This could work on a daily, weekly or even seasonal basis, depending on the characteristics of the storage mechanism.

Portability

This is the area of greatest success for current power storage technologies. Single use and rechargeable batteries are ubiquitous, and provide power for devices with demands as varied as digital watches and cars. Advances in battery technology have generally been slow, however, with much of the advance in battery life that consumers see being attributable to efficient power management rather than increased storage capacity. This has become an issue as pressure grows for alternatives to the internal combustion engine in cars and other means of transport. These uses require far more energy density (the amount of power stored in a given volume or weight) than current battery technology can deliver.

Reliability

Virtually all devices that operate on electricity are adversely affected by the sudden removal of their power supply. Solutions such as UPS (uninterruptible power supplies) or backup generators are available, but these are expensive. Efficient methods of power storage would allow for devices to have a built-in backup for power cuts, and also reduce the impact of a failure in a generating station. Examples of this are currently available using fuel cells and flywheels.

Types

See also