Preparedness blog

Build a Solar Powered Water Heater

By Mike from Ready Store
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This is a very simple design for a batch-type solar-powered water heater that uses a thermosiphon loop to move water between a solar thermal collector and a storage barrel. While it’s not the most efficient method for solar water heating and works rather slowly, it effectively demonstrates the operation of a thermosiphon and its connection to hot water storage.

The system can provide useful amounts of hot water for an outdoor shower, washing garden produce, keeping a biogas generator warm, or any number of other uses you can think of. Because it uses water, the system must be drained when the weather turns cold.

solar powered water heaterThe parts list includes recommended materials and temperature ratings. Use materials that can withstand temperatures up to 180°F, such as metal, CPVC, or polypropylene fittings, as well as high-temperature water hose material, such as EPDM rubber. Black colored hose will assist in absorbing solar heat. If you can’t find what you need at your local hardware store, plumbing supplier, or home center, shop online through industrial supply companies (such as Grainger or McMaster-Carr).

• Four 8-foot 2x4s
• Five 8-foot 1x4s
• 2 1/2" deck screws
• 3/4" roofing screws or galvanized sheet metal screws
• Two 2 x 8-foot corrugated metal roofing panels
• High-temperature, flat black spray paint
• One 100-foot, black EPDM rubber garden hose, 3/4"
• I.D. (inner diameter), rated for 200°F
• One hundred 8" black plastic cable ties, UV-resistant, heat-stabilized, rated for over 200°F
• One 55-gallon barrel, black plastic, preferably with wide-mouth top
• Two 3/4" NPT (National Pipe Thread) /GHT (garden hose thread) brass faucets, rated for 180°F
• Teflon tape
• Two 3/4" polypropylene bulkhead fittings, rated for 180°F
• Two 3/4" brass garden hose-to-tubing adapters
• Two hose clamps
• One 36" length foam pipe insulation

build solar powered water heater1. Build the collector structure
Construct two A-frame supports using 2x4s and 2 1/2" deck screws: Position the front leg of each support at the desired tilt angle for the collector panel (your latitude angle is a good starting point), and attach the rear leg at an opposing angle for stability. Join the two legs (front and back) of each side with a horizontal cross piece.

Space the A-frame supports about 6 feet apart and join the two back legs with two diagonal 1x4s to keep the frame from racking. Install three 8-foot pieces of 1x4 horizontally across the supports. Locate one piece at the tops of the supports, one 24" down from the tops, and one with its bottom edge 48" from the tops. Fasten the 1x4s to the supports with the deck screws.

Mount the roofing panels to the wood frame, using 3/4" roofing screws or sheet metal screws. Install the lower panel first, fastening it to the bottom 1x4. Install the upper panel so it overlaps the lower panel, then fasten through both panels into the center 1x4. Fasten the upper panel to the top 1x4.

Paint the top surface of the roofing panels with high-temperature, flat black spray paint (the kind used for painting wood stoves). Let the paint dry completely.

build solar powered water heater

build solar powered water heater2. Install the collector hose
Lay out and mark the hose path on the collector panel, using full-length horizontal runs back and forth, working from the bottom of the panel to the top. Do not exceed the bending radius of the hose at the ends, as kinks in the hose will stop the flow and can lead to trapped air bubbles. A 3/4" I.D. hose should allow for eight horizontal runs across the 4-foot-tall panel. Be sure to leave extra hose at the beginning and end for connecting both ends to the storage barrel.

Note: As the water in the hose heats up, air will be released from it. Keeping the hose runs reasonably level, with no kinks or snags, allows the thermosiphon to work effectively, eliminates trapped air bubbles, and facilitates draining the collector.

Secure the hose by drilling pairs of holes through the collector panel, one above and one below the hose, then loosely fastening the hose with a plastic cable tie (zip tie). Add a tie about every 12" along the entire path of the hose. Make sure the hose is in full contact with the collector panel for best heat transfer. You will tighten the ties later, after the hose is connected to the barrel and all fits well.

3. Prepare the water storage barrel
The barrel gets two threaded bulkhead fittings to provide a watertight connection through its side. The fittings receive the tapered threaded ends (not the garden hose ends) of the faucets that will connect with the collector hose. Make sure the faucets are compatible with the bulkhead fittings and the adapters for connecting the collector hose.

Cut a hole through the barrel for each fitting, using the appropriate size of hole saw. Position the lower hole as close to the bottom of the barrel as possible, and locate the upper hole about one-third of the way down from the top of the barrel. Choose areas with no raised markings and little curve in the barrel surface to ensure a watertight seal.

Wrap the threaded end of each faucet with Teflon tape, and thread it into the exterior half of a fitting. Fit each fitting into its hole and secure it inside the barrel with its nut.

build solar powered water heater

4. Set the barrel and connect the hose
Position the barrel on a sturdy stand that is tall enough so that the faucets on the barrel are higher than their corresponding hoses mounted on the collector. Position the collector close to the barrel. Extend the lower end of the hose to the lower faucet, and cut the hose to length so it makes a smooth upward arch toward the faucet. Make sure the hose doesn’t sag, which can trap air or create a “heat trap,” stopping the thermosiphon action. Cut the upper hose end to connect to the upper faucet.

Install a tubing-to-faucet adapter on each end of the hose, securing it with a hose clamp. Thread the hoses onto the faucets. Tighten the cable ties on the collector panel so they hold the hose securely in place. Put a piece of foam pipe insulation on the hot water (top) hose to help reduce heat loss and increase the effectiveness of the thermosiphon.

build solar powered water heater

5. Get started making hot water
Open the faucet valves, and fill the barrel to the top, leaving 1" or 2" of air space for expansion. You want to be sure that there is no air in the collector loop. Tilt the collector back and forth (one tilt for each hose bend) after the barrel is filled to be sure that all the air is out of the hose.

You’ll start making hot water as soon as the sun comes out. Cold water sinks to the bottom of the barrel and continues down the hose to the bottom of the collector. As the water is heated it rises up through the hose, through the top faucet, and into the barrel, where it rises to the top. There will be a noticeable temperature stratification within the barrel until the water is completely heated.

As an example, on a sunny 45°F day, I achieved a 40°F temperature rise through the collector loop using about 75 feet of 3/4" hose laid out on the collector, plus another 8 feet leading to and from the storage barrel. This was at a fairly low flow rate and resulted in a 10°F per hour temperature rise within the stored water during the hours just before and just after noon.

Ideas for Upgrades
With some additional effort, you can increase the efficiency of the system and even bring the hot water you make into your home, where it can preheat the water in your existing water heater. Check local plumbing codes before modifying your water heater. Using a heat exchanger in between your solar collector and water heater means you won’t be putting potentially non-potable water into the water heater.

• Insulate the water storage barrel to keep the water hotter for longer periods.
• Enclose the collector in a box for hotter water. Insulate the box on the bottom, and cover it with a piece of UV resistant clear Plexiglas or flexible fiber-reinforced plastic (FRP). Note: Enclosing the collector may make temperatures exceed the materials’ ratings, requiring the use of all metal components.
• Collect and store more solar energy by increasing the collector area and the length of the circulation hose.
• Switch to an active system with the addition of a small solar-powered 12- volt DC pump that moves less than 2 gallons per minute; this frees you from the constraints of a thermosiphon system.
Optional equipment for water circulation is available through local and online renewable energy dealers. This includes a low-wattage, 12-volt DC circulator pump that can operate from a 5- or 10-watt solar panel. If you make this investment, you will also want to spend a bit more to insulate the storage barrel and enclose the collector.

Become more self-sufficient with water storage and other essential preparedness items. Also, be sure to learn more about survival and traditional skills here.

10 years ago
10 years ago at 11:06 AM
I am impressed with both the simplicity and economics of this design. It is literally a "gift from heave" that could be in widespread use after a calamity/tragedy. Having hot water to keep clean with will save many lives.
10 years ago at 6:12 PM
What a wonderful gift, thank you!!! Now I have to start digging around for parts. Thanks again!
Name larry
10 years ago at 2:43 PM
what is estimated cost of this project?
10 years ago at 9:30 AM
The only question I have is during the coldest winter months after sunset what do you do to keep the water in lines from freezing?
carlie a
9 years ago at 2:54 PM
It is an idea worth trying for sure. thanks
Lela B
9 years ago at 11:46 AM
This is such a great & simple plan!!! The only thing it didn't mention was how to connect it to the shower..... Would love to know more about that part. Thank you for the great plans!
9 years ago at 8:07 AM
What about adding a freschnel lens in front of the hose to concentrate and heat it even higher.
6 years ago at 10:29 AM
What happens if pressure builds up in the tank due to heated water when the water is not in use and under the heat of the sun? Would probably be a good idea to put a pressure relief valve in the top of the tank to prevent the tank from becoming over pressurized. The escaped pressure will keep the tank and the pipes from exploding.