I present to you my homemade solar water heater, also known as solar thermos or solar boiler.
Some call it a solar water heater.
I explain how to build a completely homemade water heater, capable of supplying hot water to 4 people every day, at a very low cost, without the need for subsidies.
If you are able to understand the project of my homemade solar water heater, you will be able to build and maintain your solar heater without help and without maintenance costs and without paying a high cost for a breakdown.
But it's not all about saving money.
The purpose of this homemade solar water heater project is to understand how the resources of a homemade solar water heater work.
Solar water heaters are so efficient that they have been commercially exploited for some time now.
Of course it was also inevitable, it is an open secret that heating water in a black bag or painted bottle is a child's thing.
I will briefly explain why it works. How to do it at home. How to take advantage of such a good and free resource as the sun, and how to make it ourselves little by little at home and comfortably.
Above all, by learning a little DIY and plumbing.
Without having to pay such a high price, which is surely what you like the most.
And with a performance comparable or superior to many commercial models.
First we have to understand what a solar water heater is and how it works, consisting of a collector and a tank.
And how does a solar collector heat large quantities of water to such a high temperature in a very short time.
Because in the end it consists of that, in heating a lot of water very quickly.
Any home solar water heater, or commercial one that you can buy, seeks the same function.
Accumulate a lot of heat inside a box (collector). Transfer that heat to the water that is inside, and take all those heated water loads to a tank (accumulator).
What a solar thermal equipment does is heat the water in cycles and transport it to the accumulator, and while the water is heating, or if it is the case that it is not heating, simply do nothing.
There are many determining circumstances that make a solar water heater better or worse.
The quality of the collector and the tank, the way in which the water flow is circulated and controlled.
Everything will be explained clearly and the different configurations in which each system can be built.
All solar heaters, both commercial and home-made, consist of 3 parts to achieve the above described:
The efficiency of our homemade solar heater will depend on the materials used in the collector and its insulation.
It also depends significantly on the insulation of the water tank.
There are few industrial secrets to this, insulation with polyurethane foam for the most part.
We can use whatever comes to hand, polyurethane, cardboard, polystyrene, rock wool.
It is simpler than it seems, we can practically do it 100% at home and with perfectly comparable and superior performances.
Without a pump, without a differential thermostat, and if we want, even without probes.
I'm not saying it's bad. It can be as respectable as buying a Seat Panda now.
A thermosiphon solar heater, which is still found on many roofs, has its advantages and disadvantages.
The advantages are that it does not depend on electricity, because the water or fluid circulates by itself as if by magic, and it is cheap to build and maintain.
The disadvantage is that the performance is much lower, and that the configuration is very specific.
It requires a certain height and distance in the tank with respect to the collector... those that we see with the tank raised horizontally.
The thermosiphon system circulates the water automatically by pressure difference.
The hot water rises and the cold water falls. But this happens slowly, and when the difference in pressure and temperature is significant.
This circulation is automatic, without any possibility of control.
It starts to work from a certain temperature difference and in a very slow way, it is a free but slow engine.
Why should we expect less performance than the forced circulation system?
Because this natural form of circulation starts late, and ends early. While in a forced system we can make the pump start at 1º of difference.
This is the system that interests us the most if we can assume a little effort.
The water pump can be activated and deactivated in the following ways:
The function of this differential thermostat is to activate and deactivate the water pump.
The first occurs when the collector is hotter than the accumulator (tank).
And the opposite when the collector does not help to heat the accumulator more.
I must clarify that we are talking about a small and simple water pump.
There is no need for one of those pumps that look like a submarine.
The electrical consumption of the entire system (differential thermostat and water pump assembly) is usually very very low.
When the pump is not circulating, the consumption is negligible.
A suitable water pump can be between 10w and 15w of consumption. Obviously, the consumption is only when it pumps.
I have chosen to do it with a water pump (forced circulation) and I am going to base the entire project on that modality (but you can follow the same instructions omitting the part that you discard)
For 2 simple reasons:
The disadvantages of forced circulation are the cost (which is not much), and that we depend on electricity.
Although this dependence can be overcome with a backup electric battery.
A forced circulation system on the market can be very expensive.
But in our case we will assemble it ourselves and at cost price of material.
Once we have assumed how everything works, repairs and maintenance will also be at cost price.
This was my first prototype of a completely homemade solar water heater:
And first homemade solar water heater for daily use it was this:
There are many more variants on solar heaters, with temperature exchangers, with heat-carrying glycols, with various devices.
These configurations bring advantages and disadvantages.
But in the best of cases any type of exchanger will lose performance.
I am going to do it with water and collector and accumulator directly with the same water, without exchangers.
Maybe in the future I will consider it, but right now the simple and basic configuration works very well.
From here you need to follow the following articles for each link, these being segmented by each part of the heater.
Homemade solar water heater construction
Building a homemade solar collector model 1
Homemade pressureless tank for solar thermal use
Homemade solar water heater