Concept Illustration Transcript

System Advantages

Relatively Cheap

Environmentally Lovely

Stores Energy Indefinitely

Stores Large Amounts of Energy

Maximum Output Regardless of Charge Level

Available Instantly

Maintenance Free

100% Safe

Small Space & Landscape Footprint

Gravity-Powered Battery

Solar energy is free and plentiful everywhere on the planet, the only problem is that it's only available half of the day, and for that part of the day, most people are usually away from home, at work or at school, thus, at times where solar panels produce the most energy, there's nobody around to use it. In order to put solar energy to good use, we need an efficient way of storing it, however batteries are expensive, toxic, have limited life spans, they drain over time... they are pretty much useless when it comes to storing large amounts of surplus energy for medium to long periods of time.

Meet the gravity battery! Using the principle of exploiting the force of gravity, it is in theory possible to store vast amounts of surplus energy, relatively cheap, environmentally friendly, maintenance free, totally safe and without disrupting landscape or taking up horizontal space. The concept of exploiting the force of gravity has been around for centuries in the form of the pendulum clock, which stores the energy that a person puts into the system and then distributes it slowly over a long period of time. The gravity battery acts in a similar way, it stores the surplus energy obtained from solar panels during long periods of time, and then delivers it whenever it is needed. It is literally the best possible way of storing large amounts of energy for an indefinite period of time.

How It Works

There is a series of hollow vertical underground cylindrical tubes, each of them containing a heavy weight which hangs inside the tube attached to a high strength cable.

Above the ground, each wire is spooled up and attached to its own coil. The coils are mounted along a central support axis which carries all the weight. Inside the support axis, there are two transmission axis, one for the charger and one for the generator. Each coil can be switched individually between the two transmission axis, through a gear system.

When energy is in surplus, the distributor routes it to the charger (an electric engine). The charger uses the electric energy it receives to spin its transmission axis, thus spinning all coils attached to that axis, and lifting their weights up to maximum height.

When a weight is at maximum height, its coil will automatically switch from the charger axis to the generator axis.

When energy is needed, the allocator switches off the break on the generator axis, thus causing the coils to unwind and spin the axis, powering the generator and creating electricity.

Using a system of gears, the charger can operate even with low energy input. Using multiple tubes allows the system to both charge up and supply energy at the same time.

The Project

This project has been conceived to illustrate the concept of the gravity battery and how it would theoretically work. No actual measurements have been taken, and no tests have been done. This is pure theory and does not come with any guarantees of any kind. Although we'd love to hear from people or companies that have actually tried implementing or testing this idea, if you are planning on doing this yourself, proceed at your own risk.

Illustration Legend