Ananta Doyens Handyman Service: Solar Water Heating

AD Home Maintenance Service Solar Water Heater

To Need Professional hand for your Solar Water Heater for Installation & Maintenance Service ,read the Tips Below

Solar Water Heating

Solar water heating collectors capture and retain heat from the sun and transfer this heat to a liquid. Solar thermal heat is trapped using the “greenhouse effect,” in this case is the ability of a reflective surface to transmit short wave radiation and reflect long wave radiation. Heat and infrared radiation (IR) are produced when short wave radiation light hits a collector’s absorbed, which is then trapped inside the collector. Fluid, usually water, in contact with the absorbed collects the trapped heat to transfer it to storage.

Two principles govern solar thermal collectors. First, any hot object eventually looses its heat back to the environment. The efficiency of a solar thermal collector is directly related to heat loss, mainly from convection and radiation. Thermal insulation is used to slow down heat loss from a hot object to its environment.

Second, heat loss is more rapid if the temperature difference between a hot object and its environment is larger, in this case between the temperature of the collector surface and the ambient temperature. (But the same goes for transferring heat from the collector to the fluid, a larger difference between the collector and the liquid, the more heat is transferred.)

The most basic approach to solar heating of water is to simply put a tank filled with water into the sun. The heat from the sun would heat the metal tank and the water inside. This was how the very first SWH systems worked more than a century ago. However, this setup would be inefficient because there is little to limit the heat loss from the tank. Adding an insulated box around the tank, and adding glass above the top where the sun comes in would do a lot to retain heat.

A more common collector is called a flat plate collector. It has a large, flat surface area (absorbed) to maximize exposure to the sun, and has small tubes bonded to it. Fluid runs through the tubes, collecting the heat from the absorbed. The sides and bottom of the collector are well-insulated, and glass on top completes the insulation.

The basic components in home solar heating systems include:

Collectors to take the heat from the sun and pass it to a fluid
The heat transfer fluid which takes the heat from the collector for use or storage
Heat exchanges to transfer the heat from the fluid to a home’s domestic water.
Pumps to move the fluid through the collector and/or the exchange, and sometimes to move the domestic water through the other side of the exchange.
Controllers to run the pumps when there is collector heat available.

Why Use Solar Water Heating?

Heating your water with solar energy can be a rewarding venture in more ways than one. In general, there are several reasons to use solar energy.

Energy Independence. Using solar can reduce your dependence upon the utility, as well as the fossil fuel companies that supply it. It helps reduce the nation’s reliance on foreign energy sources. Solar is as reliable as getting your energy from the utility, as well. As long as the sun is shining, you’ve got energy. Many folks with solar hot water only need to use the utility for backup, and sometimes not even that. Independence can be a very gratifying experience.

Many solar water heating systems require freeze protection.

Balance of system components for a drainback-type solar water heating system.

Environmental Impact. It is a fact that most of our energy comes from burning fossil fuels. This leads to a wide array of environmental problems, including human-caused climate change, acid rain, mountaintop removal for coal and tar sands, and health effects around power plants. The use of nuclear energy and its long-lived, poisonous byproducts is an important issue to many.

But why risk the environment, when we can take advantage of the sun which falls freely on Earth, ready to be used for our own energy needs? With the slight exception of having to manufacture the equipment needed to capture the sun’s heat, there is no environmental impact from making solar energy at our homes.

Financial Benefits. When you choose to use solar to replace all or part of what you had been using the utility for, that comes with financial savings on your utility bill. Solar-electric, as popular as it is, does not have as high an energy and cash savings per amount spent as does solar water heating. It is easy to see 50% to 100% savings on your bill, helping systems to recoup the original investment in 5 years, and as little as 3 years. The time depends largely on your local solar resource and how much utility energy costs.

Use Solar Water Heating

Using solar hot water is easily integrated into most people’s lifestyles. Once a system is installed and commissioned, it rarely takes any maintenance at all. The three main uses for SHW are:

Domestic hot water is perhaps the best known of solar water heating applications. Nearly every home uses hot water every day, with the typical U.S. household being around 30 gallons per person per day. This covers showers, dish washing, and clothes washing. Hot water is stored in a tank for when it is needed. An energy efficient household might use less than half of that amount.

Space heating is a lesser-used application for solar hot water. Similar to domestic solar hot water heating, except that non-potable hot water is pumped into either in-floor hydronic tubing, to heat registers or radiators on the walls or baseboards, or to a heat exchange inside a forced-air heater.

Pool heating is a very easy use of solar water heating technology, and because its equipment is minimal and less expensive, is practically a no-brainer—if you have a heated pool.

Systems

There are several system types for turning solar energy into hot water, and each has its purpose or advantages and disadvantages:

Batch heaters are the most basic—a tank in the sun, though usually in an insulated box with a glass or plastic cover. These are plumbed inline with the domestic water system they serve, no pumps or controls are needed. They make great DIY projects that can be made from any old conventional hot water heater tank. But they do not do well in freezing temperatures—most people will route the water supply around them, and empty them in the winter.

Thermostat is the next simplest system. These entirely passive (meaning no pumps) systems rely on the collector being below the tank, so that natural convection moves the hot water out of the collector and to the tank for household use. These systems are also inappropriate for freezing climes.

Direct forced-circulation is similar to the thermostat system, but adds a pump and controller. The pump makes it possible to pick up more heat out of the collector. The controller measures when the collector is hotter than the tank and turns the pump on or off as appropriate. These systems also have no freeze protection.

Drain back systems add a tank and a heat exchange. The drain back tank is sized so that all the water in the collector and lines can drain down into it, when the pump turns off. That way there is no water left in the collector at times when it could otherwise freeze. The water in the system is separate from the household water, so it needs a heat exchanger to transfer the heat from the collector water to the domestic water.

Antifreeze systems are the most common type in climates that regularly freeze. It is has no drain back tank, so the fluid in the collector cannot drain out of the outdoor plumbing. The freeze protection comes from polypropylene glycol antifreeze, so it can stay in the collector after the controller shuts the pump off.

Get Started with Solar Water Heating

Solar hot water is appropriate for nearly every household, north or south. Of course, access to good sunlight is requisite, but most people have enough of it. The first step is making sure. If you have a roof that you are sure gets sunlight for a few hours a day, even in the winter, then the next step is to survey the site with a tool like the Solar Pathfinder. Most professional solar companies have a siting tool, or they can sometimes be borrowed from a local energy agency. But if you have dawn to dusk sunlight on your roof, you’re in!

If yours is like a typical U.S. household, its residents waste a lot of water. And wasting hot water means you are wasting energy, so your next task is to pare your usage to what you consider to be the minimum. Low flow shower heads, faucet aerators, more efficient washers (clothes and dishes), and insulating pipes are the starting place. Behavior is important too, teenagers taking half-hour showers is beyond wasteful.

So if your solar access looks pretty good, and you’ve done what you can to cut down on usage, the next step is to find a professional with a good reputation. Look for someone with significant experience, who can provide both business and customer references—and then you should check them. They should be willing to come to your home and chart your usage, so that you end up with the correct system and size for your needs.

But maybe you are a DIY type, with skills that include mechanical, plumbing, and a little electrical. If so, and after some serious research, you might be able to design and install a system yourself. Certainly, all the components are available to anyone that takes the time to search them out. But capability is the big question that only you can answer for yourself.

Sizing a system can be fairly straightforward. For a conservation-minded, energy-efficient household, you can figure about 15 gallons of hot water per person per day. From there, you can determine how many square feet of collector you will need. If you get 5 sun hours per day, and need 80 gal. of hot water, two 4 by 8 ft. collectors will probably do the trick. You can be much more precise than that, but even if you are in the ballpark, you should still end up with a system that will significantly cut back on your conventional water heating. For sizing the solar storage tank, it should be equal to or greater than the daily usage.

You will almost certainly need to back up your SHW system with a conventional water heater so you will have enough hot water even during long periods of no sun, to cover deficits because of winter sun, or for those times when guests are staying with you. The choices are thankless and tank-type, and both are available in gas or electric. If you choose thankless, you will need to the kind that can accept preheated water. Then you plumb the backup heater in line with your solar hot water system.
Insulating hot water pipes.