Solar Water Heating--Revised & Expanded Edition. Bob Ramlow
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Название: Solar Water Heating--Revised & Expanded Edition
Автор: Bob Ramlow
Издательство: Ingram
Жанр: Техническая литература
Серия: Mother Earth News Wiser Living Series
isbn: 9781550924497
isbn:
Figure 4.1: Solar storage tank with wraparound heat exchanger
Figure 4.2: Solar storage tank with internal heat exchanger
Figure 4.3: Drainback tank with internal heat exchanger
Tanks without Built-In Heat Exchangers
Storage tanks without built-in heat exchangers are the most common kind found in solar water heating systems. These can be made of steel or fiberglass. To function as a solar hot-water-storage tank, the tank has to be insulated and have suitable fittings to allow proper connections of the water supply, the heat exchanger and the drain. A number of manufacturers build storage tanks specially designed for this type of application, similar to water heating tanks but with extra ports to make it easy to install the solar plumbing. It is also possible to use a traditional water heater tank. These tanks are readily available at competitive prices and come in both fiberglass and steel. If you go this route, it is best to use an electric water heater. A gas water heater tank will most likely have a flue down the center, which can lead to more standby heat loss, as well as providing more surface area to develop leaks. More information on how configure a traditional electric water heater into a storage tank will be covered in Chapter 8.
Sometimes folks want to buy a used tank when installing a system. If you choose to do that, you should inspect the tank carefully for corrosion. In most cases the used tank was taken out of service either because it leaked or was old and ready to leak. We do not suggest using used storage tanks.
Drainback Tanks
Drainback systems need specialized reservoir tanks in addition to the storage tanks. They are like small solar storage tanks and usually hold about 5 to 20 gallons. Some drainback tanks have a heat exchanger built into them. Many have a sight glass built in to the side of the tank for monitoring the liquid level inside the tank. These specialized tanks are available from collector manufacturers and solar specialty shops. As with any other tank, you want to look for glass-lined steel or fiberglass tanks with adequate insulation.
Solar Space Heating Storage Tanks
Solar space heating systems are just overgrown solar water heaters. Being overgrown, they need an overgrown storage tank — think big. The size will vary depending on house size and climate. It is not uncommon for these storage tanks to be in the 300-gallon to 500-gallon range. To achieve the required storage size you can use either one large tank or several smaller tanks plumbed together. One large tank will always be preferable. These tanks are made of steel, stainless steel, fiberglass or, occasionally, concrete. There have been many attempts over the years to build storage tanks in place and line them with plastic or rubber. These do not work and will fail. The liners in these tanks are not designed to withstand temperatures commonly encountered in the system. They will often become brittle and eventually leak and crack.
One big problem with large storage tanks is getting them into a building and through doorways. Some manufacturers have made tanks that come in pieces and are assembled in place. These are usually made of fiberglass and either bolt together or are cold welded with epoxy. We suggest selecting a cold-welded tank that is made of heat-resistant fiberglass capable of withstanding at least 180°F in continuous operation.
Heat Exchangers
Liquid-to-liquid heat exchangers are used in a solar water heating system to transfer the heat from the solar fluid into the domestic water.
Most heat exchangers are single walled. A single-walled heat exchanger has a single membrane between the two fluids. This membrane could be made of copper, stainless steel, or (in very specific circumstances) Pex. Double-walled exchangers afford an extra layer of protection to the potable water in case the heat exchanger ever develops a leak. Many have a gap between the layers, commonly referred to as “positive leak detection,” so that a leak in a wall will clearly be visible, and the heat exchanger can be repaired or replaced. Single-walled heat exchangers are typically more efficient because the heat needs to be conducted through less material. However, some municipalities may require a double-walled heat exchanger whenever domestic water is involved in the exchange. Rules requiring double-walled heat exchangers are often a carryover from the early years of our industry, when toxic liquids were used as heat transfer fluids. There is no need for a double-walled exchanger if a nontoxic solar fluid is used.
Figure 4.4: Plate heat exchanger
Heat exchangers can be constructed using either pipes or plates. Two fluids are passed next to each other, separated by a membrane. Heat transfers across the membrane from one fluid to the other. Always plumb heat exchangers in a counter-flow arrangement, as this is the most efficient way to transfer heat. This means that the two fluids will need to flow in opposite directions when passing through the heat exchanger. This allows for the greatest difference in temperature between the two fluids, which increases the rate of heat transfer.
A plate heat exchanger consists of a number of plates spaced apart and capped around the sides. Separate waterways are designed into them to allow the different fluids to pass through adjoining spaces in a zig-zagging counter-flow pattern. This back-and-forth arrangement means that plate heat exchangers always require a pump on both waterways, as they will not convect. This type of exchanger can pack a large amount of surface area into a small package. Because heat transfer is directly related to the amount of surface areas that are available, you are unlikely to have too much heat transfer surface area. Because they have so much surface area in such a small package, plate heat exchangers also have very small waterways. Consequently, in hard-water conditions, scale can easily build up, causing reduced heat transfer or clogging. When installing one of these, you may want to place boiler drains and isolation valves on the domestic water side pipes to provide the means to periodically flush out the heat exchanger. Remember to always use a nontoxic solution when doing so. We prefer a product that is enzyme-based, making it biodegradable, non-corrosive and safe for septic systems.
A tube-in-shell heat exchanger is essentially a smaller pipe (or pipes) inside a larger pipe or tube. One fluid is circulated through the inner pipe(s) and the other fluid circulates through the outer pipe. The material of the inner tube separates the fluids. Tube-in-shell heat exchangers come in either single-wall or double-wall versions. These heat exchangers can be configured in straight lengths or coiled. The coiled configuration always requires a pump like the plate exchangers, but the straight ones can thermosiphon on the water side if properly designed for that purpose.
Pumps
Pump Construction
It is important that all the components within a solar loop are made of compatible materials. When different materials are mixed in a plumbing circuit, galvanic reactions can take place that speed up oxidation and deterioration of the components. We prefer to use brass, stainless СКАЧАТЬ