To add a little context for anyone who hasn't looked into these things before, an oversize solar array can deliver 20+ kW hours of energy on quite a lot of days of the year.
There seems to be logical hierarchy to using it up:
- Do energy intensive jobs like cooking and laundry while the sun is out if you can
- Charge your battery if you have one
- Charge your car if you have an EV
- Heat up your water tank
But then it may only take a couple of sunny days and everything is topped up, and the challenge becomes how to use the surplus since you get paid so little for exporting it. Heat batteries of one sort or another are a possibility.
The problem with water thermal stores is they need to be big and heavy to be worthwhile and a lot of us don't have space. Water is great at absorbing energy but limited by boiling.
Thermal storage based on phase change materials is available tech but they are focussed on saving space, not increasing the amount of storage that you can get. The largest sunamp unit is a more compact alternative to a 300 litre water tank but at more than twice the price.
Thermal storage in hot sand is interesting. There's a new to market gizmo called the ZEB (Zero Emissions Boiler) by Tepeo that is just 2 feet square x 3 feet tall. The bottom half of a fridge freezer. It will store 40kWh of energy as heat and give it back as hot water. It charges at 9kW and gives back at 15kW max. It is aimed at heating mid sized houses (3 bed) using the heat for hot water and driving the existing radiators at normal high temperatures. No retrofit of underfloor heat or large bore pipes and big radiators. It doesn't have the 2-3x energy gain that a heat pump provides, but if you could charge it from free solar energy or an overnight low cost electricity, then the economics might work out vaguely similar.
But the Zeb is really new and costs about £6k plus installation. Yes they have figured out all this heat exchanger stuff and it will be using high temperature vacuum insulated panels so that it's safe to have 400C temperatures inside your house, but otherwise it is made with heating elements and high density bricks basically the same as an overnight storage heater. It must be possible to DIY this, and on a larger scale.
Another startup - Caldera - began promoting a larger version of the same thing. Theirs is a rounded "Dalek" of a thing that installs outdoors, stores 100kW of energy and will hold it for longer than the 1 week that the smaller Tepeo block can manage. Sadly, Caldera have announced that they will not be commercialising this for the forseeable future. They've realised that there is more money to be made applying their ideas to improving the storage of industrial process heat. I can't fault their logic but it's a shame that the domestic market doesn't have this option.
Here's a little calculation for interest. Scale this up or down however you wish to get an idea of how much energy can be pushed into sand ....
Image a cube, 2 feet on each side. 600mm x 600mm x600mm
That has a volume of 6x6x6 = 216 litres
Filled with sand it weighs appx 335 to 345 Kg
The specific heat of sand is 830Joules per KG degree C,
To increase the temperature of the block by 100C will require 8.4kWh of energy
So if you heated it to 400C and insulated it well enough you could store 33kWh as heat. That's enough to heat a small house for a day. Move daytime energy to the evening, or overnight energy to all day heat.
Make it 1.8 metres tall like a fridge freezer, plus the insulation, and you have the Caldera prototype at 100kWh.
Put this across the back wall of your shed and you could be storing half a Megawatt if you don't burn the place down
and extending the season of your solar PV at least part way into the 2-3 lousy months of winter.
The combination of very simple, basic and cheap materials, with what is really just industrial standard heat management and the new technology of high temperature vacuum insulated panels sounds credible and I think we'll see a lot of development in this area as we all try to manage the energy crisis.
