Pumped water storage is a thing that gets used successfully to store energy.

The issue is that it takes a lot of water pumped up over quite a distance to store significant amounts of energy.

Actually building special infrastructure with tanks and stuff simply would not be efficient.

The only way to make it really work economically is to find a per-existing mountain or big hill that either already has a likely lake on top or can be converted to hold a lake at the top and bottom that you can pump water between.

Those hills are not exactly all over the place and building a pumpe storage site would destroy much of the environment already there.

However quite a few places have them build like this to store energy created during the day by solar etc and release it during the evening and early morning when people are awake and using energy but solar is not working at 100%.

To get you an idea of the simple scale issue involved.

* One Watt is one joule per second.
* A joule is newton time a meter.
* A liter of water weighs about 1 kilogram
* A cubic meter of water is about a metric ton.
* An hour has 3600 seconds.
* Gravity on earth is about 9.8 m/s², but can be rounded to 10 m/s² for rough calculations.

All that together means lifting a cubic meter of water by one meter represents an energy of 10 kilojoule which is 2.77 watthours.

Filling an Olympic swimming pool (50 m x 25 m) to a depth of 3.6 meters and pumping that up a 100 meter represent an energy of 4.5 gigajoule which is 1250 kilowatthours.

The average American consumes about 30 kwh a day.

You can see how it would be difficult to scale this up.

There are only so many lakes you can put on top of mountains to create pumper storage facilities.

Trying something silly with cranes and concrete blocks or ships and ballast would simply not work.

You need something that can get big and is really low maintenance.