If a country house is actively operated not only in the summer season, but also in the cold season, the creation of a high-quality heating system in it is an urgent need.
Different heat carriers can be used in heat supply lines: air heated to 60 ° С, water vapor at 130 ° С and water with a temperature of 95 ° С. Most often they use water heating.
One of the main advantages of this coolant is the ability to equip various water heating systems, depending on the design features of the house, personal preferences and other factors.
In the article, we described a detailed classification of water heat supply schemes, outlined the features of each option, and also provided recommendations for choosing the main components of the system. The information provided will help to design the heating of a private house.
Classification of water heating systems
Depending on the location of the place of heat generation, water heating systems are divided into centralized and local. In a centralized manner, heat is supplied, for example, by apartment buildings, various institutions, enterprises and other facilities.
In this case, heat is generated in thermal power plants (cogeneration plants) or boiler houses, and then delivered to consumers via pipelines.
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Single pipe heating circuit
Two-pipe system
Pump version of the heating system
Gravity type heating system
Top heating circuit
Horizontal heating
Closed system device example
Open system device example
Local (autonomous) systems provide heat, for example, private homes. It is produced directly at the heat supply facilities themselves. For this purpose, furnaces or special units using electric power, natural gas, liquid or solid combustible materials are used.
Depending on the method by which the movement of water masses is ensured, heating can be with forced (pumping) or natural (gravitational) movement of the coolant. Forced circulation systems can be with ring circuits and with primary-secondary ring circuits.
Different water heating systems differ from each other by the type of wiring and the method of connecting devices. They are united by the type of heat transferring heat to heating devices (+)
In accordance with the direction of movement of water in the supply and return pipelines, the heat supply may be associated and deadlock movement of the coolant. In the first case, water moves in the highways in one direction, and in the second - in different directions.
In the direction of movement of the coolant, the systems are divided into dead ends and oncoming ones. In the first, the flow of heated water is directed in the opposite direction to the cooled. In associated circuits, the movement of the heated and cooled coolant occurs in one direction (+)
Heating pipes can be connected to heating devices in different schemes. If the heaters are connected in series, this scheme is called single-tube, if in parallel - two-pipe.
There is also a bifilar scheme, in which at first all the first halves of the devices are connected in series, and then, to ensure the reverse outflow of water, their second halves.
The location of the pipes connecting the radiators gave the name to the wiring: distinguish between its horizontal and vertical variety. According to the assembly method, collector, tee and mixed pipelines are distinguished.
Schemes of heating systems with upper and lower wiring differ in the location of the supply line. In the first case, the supply pipe is laid over devices that receive the heated coolant from it; in the second case, the pipe is laid below the batteries (+)
In those residential buildings where there are no basements, but there is an attic, heating systems with an upper wiring are used. In them, the supply line is located above the heating appliances.
For buildings with a technical basement and a flat roof, heating with a lower wiring is used, in which the water supply and drain pipes are below the heating devices.
There is also a wiring with an “overturned” coolant circulation. In this case, the return heat supply line is located below the devices.
By the method of connecting the supply line to the heating devices, the systems with the upper wiring are divided into schemes with two-sided, one-sided and overturned movement of the coolant
Requirements for the operation of the heat supply system
With all the variety of water heating systems, a number of general requirements are presented to their work.
They have to:
- evenly warm all the air in the rooms;
- be maintainable;
- Do not create difficulties during operation;
- linked to ventilation systems;
- be regulated.
The principle of operation of the heating system itself is also common: the water is heated, after which it circulates through the pipeline and gives off the received heat, warming the rooms.
In winter, a non-freezing liquid - antifreeze can serve as a coolant. So that its ethylene glycol does not cause pipeline corrosion
Equipment power calculations
Indoor temperature depends on the following factors:
- air temperature outside the building;
- wall thickness of the house and the quality of its individual elements;
- heat capacity of materialsof which the house is built.
When calculating the heat demand of your home, you need to consider all factors, including heat loss through windows and doors, walls and floors with ceilings. Special norms necessary in the calculation process should be applied taking into account the climatic conditions of the area in which the residential property is located and the degree of existing thermal insulation.
The general purpose of the calculation is to calculate the total heat loss corresponding to the minimum air temperature in your area in order to acquire equipment that can compensate for these losses in excess
The greatest heat loss occurs through the exterior walls of the house. With the increase in temperature difference inside the house and outside the building, heat loss also increases.
If we take into account the material from which the external walls were built, and the thickness of these walls, then for an external air temperature of -30 ° C, the heat loss will be different and will be:
- brick with internal plaster - 89 W / m² (2.5 bricks), 104 W / m² (2 bricks);
- chopped with inner lining (250 mm) - 70 W / m²;
- from timber with inner lining - 89 W / m² (180 mm), 101 W / m² (100 mm);
- frame with expanded clay inside (200 mm) - 71 W / m²;
- foam concrete with internal plaster (200 mm) - 105 W / m².
However, heat loss occurs not only through the outer walls, but also through other building envelopes.
At the same - 30 ° C they will be for:
- wooden floors of the attic - 35 W / m²;
- basement flooring - 26 W / m²;
- double wooden doors without insulation - 234 W / m²;
- double-glazed windows - 135 W / m².
To calculate the total heat loss of a building, you need to calculate the area of all enclosing structures in square meters, multiply by the heat loss standard for the types of structures taking into account the materials from which they are made, and summarize the results.
The calculation should be done based on the minimum seasonal temperature of a particular area. Heat losses through walls are calculated separately, as it is necessary to take into account the area of glazing and doorways.
Losses through floors without hatches in the attic or underground are calculated for the entire area as for single structural elements.
The heating boiler is chosen taking into account the fact that its capacity should be enough to compensate for heat loss with a 20-30 percent margin.
The procedure for calculating the thermal power of equipment that will be used for installation of the heating system is given in the video clip in the final part of the article.
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Solid fuel boiler in a private house
Electric heating unit
Gas floor heating boiler
Gas wall mounted boiler
On our site there is a block of articles devoted to the calculation of water heating, we recommend that you read:
- Hydraulic calculation of a heating system using a specific example
- Calculation of water heating: formulas, rules, examples of implementation
- Thermal calculation of a heating system: how to correctly calculate the load on a system
Water heating systems
With all the external differences and various wiring diagrams, the basic principle of operation of water heating systems is the same. The heat carrier heated in the boiler is transported through a pipeline to heating devices.
Cooling down, water transfers heat to the environment, after which it returns to the place where it will be heated. This cycle repeats over and over.
Natural and forced circulation
In private houses, the following types of heating systems are used:
- with natural circulation;
- with forced circulation.
Natural circulation. Its performance is based on the difference in density between hot and cold. The upper positions of such a system are occupied by warm water, and the lower ones by cold. Cooling down, warm water moves down, and heating up.
The second factor that ensures the natural circulation of water masses is the slope under which the pipes are installed.
So graphically presents the sources of circulation pressure. Firstly, its appearance is due to different water temperatures, and secondly, the inclined position of the pipes (+)
The advantage of a natural circulation circuit is its complete independence from energy supply.
She has many more disadvantages:
- small radius of actionI, not exceeding 30 m in horizontal dimension;
- heating time - a long period of reaching operating temperatures at all points of the system at startup after a long break;
- risk of shutdown due to the formation of ice in the open expansion tank.
The diameter of the pipeline should be large enough due to the low circulation pressure in the circuit. This factor also affects the choice of batteries, because modern radiators have too narrow a cross-section, which creates additional resistance that counteracts the circulation of "gravity".
In order to further stimulate the movement of the coolant, the pipeline is constructed with a slope so that 1 mm averages 3 mm. Correct installation of pipes at the right angle is not an easy task, but without its solution, the system will function much slower and more efficiently.
Due to the fact that the coolant moves sequentially through the devices to the ones closest to the battery supply line, it enters with a higher temperature (+)
The coolant leaks to distant radiators of gravitational systems already substantially cooled down. To maintain the heating temperature, cast-iron radiators should be used. To balance the temperature difference, distant batteries should have more sections than those closest to the boiler.
Forced circulation provides a pump. The scheme may contain either one or several pumps. The use of several pumps is preferable: an emergency shutdown of one of them will not damage all heating.
The coolant moves cyclically along a closed circuit, into which an expansion tank is included, which eliminates the evaporation of water.
A distinctive feature of a water heating system with forced circulation of the coolant is the presence in the circuit of the pump, which contributes to the movement of water
Advantages of a forced circulation system:
- for the installation of heating, you will need more pipes, but a smaller diameter;
- You can use different types of radiators and heat pipes with small diameters;
- the temperature of the heaters is easier to regulate;
- the range of action has been significantly expanded thanks to artificial stimulation of the movement of the coolant;
- the possibility of using heating units with enhanced coolant characteristics.
The disadvantage of forced systems is dependent on energy supply. In order to avoid incidents with complete inactivity of heating, it is recommended to stock up on a diesel or gasoline generator.
In addition, the disadvantages include:
- the need for accurate calculation pipe diameter, as too narrow channels will sharply increase hydraulic resistance, and when circulating through excessively wide pipes, the coolant will “make noise”;
- considerable construction cost due to the almost double length of the pipeline, the inclusion in the circuit of one or two circulation pumps, if necessary a booster pump;
- mandatory use of expensive regulators coolant flow, its temperature and pressure in the system.
The correct choice of the type of circulation depends on the individual characteristics and the location of the building in which the water heating will be mounted. However, schemes with natural movement have recently become less and less frequent, using them mainly in buildings for temporary residence.
Most often, private homes are equipped with systems with artificial coercion of the movement of the coolant due to significantly greater capabilities.
Combined Circulation Systems
The combined system can function in both natural and forced mode. This means that during its installation it is necessary, as in the case of using natural circulation, to provide for a pipe slope of 3-5 mm per linear meter, as well as the installation of a pump, as for forced circulation.
Usually in such a heating circuit there is a solid fuel boiler.
The scheme includes: 1- electric boiler, 2- solid fuel boiler, 3- pump. This scheme is a combined heating system, in which in addition to the pump there is an inclined piping system, and the electric boiler is duplicated by a solid fuel so that the system can work without electricity (+)
The point of using the combined system is that it will continue to operate even in the event of a power outage. But a sudden shutdown of heating in the winter threatens not only with lowering the temperature in the room.
Elements of the heating system can simply fail, because water, expanding during freezing, will violate their tightness.
Installation methods for water heating systems
Consider two main schemes for installing heating systems.
Single pipe heating system
The pipeline design in a single-tube version is characterized by a direct sequence of bringing the coolant to the radiators. The coolant fills and warms up first the first battery, then the next and so on.
Two pipes are supplied from each pipe to each radiator: the first is needed to supply coolant, and the second is to drain partially cooled water.
The one-pipe heating system is characterized by the serial connection of all radiators, in which the heat carrier, passing the first heating device, enters the subsequent
A feature of such a scheme is the relatively low heating of the last battery compared to the first, since water "gets" to it, having already lost some of its heat.
Another disadvantage of the one-pipe heating option is that it is impossible to stop the flow of coolant to one specific radiator, in case of breakdown. Will have to shut down the entire system.
Two-pipe system and its variants
In a two-pipe heating circuit, as the name implies, not one, but two pipes are involved. At the same time, each of the batteries is connected in one pipe to the mains through which the coolant is supplied, and the second to the return pipe. It turns out that separate pipes are provided for the hot and cooled coolant.
Two pipes participate in this system: hot water flows through radiators through the pipes one through one, and coolant flows through the second from the batteries (+)
Thanks to this heating design, the water in all radiators has almost the same temperature. The operation of such a system is easier to control, adjust and automate.
The two-pipe system, in turn, is divided into two types:
- with the top gasket of the feed pipe, i.e. with top wiring;
- with the bottom gasket of the supply pipe, i.e. with bottom wiring.
Top wiring systems are built primarily in multi-storey buildings with an attic. Schemes with lower wiring are a priority in private low-rise construction, because they allow maximum concealment of the pipeline and eliminate or reduce the number of risers.
A two-pipe heating system for a private house is often performed according to the collector scheme, although the latter can be single-pipe. The radial location of the pipeline sections can significantly reduce the cost of heating the coolant (+)
A comparative characteristic of a single-pipe and two-pipe heating system is given in the video material, which is located at the bottom of our article.
Open and closed heating systems
In addition to the types of water heating systems that we have already considered, there is a division into an open and closed design.
Open heating system consists of a boiler (any one is used except electric), pipelines, radiators and an expansion tank, which receives excess water when it expands during heating.
The tank is not tight, water from the system can evaporate, so its level must be controlled and refilled if necessary.
In order for an open heating system with an upper wiring and natural circulation of the coolant to work more efficiently in winter, it is recommended to insulate the supply riser. This measure will exclude cooling of the coolant and, as a consequence, slowdown of its movement (+)
The pump is not used in an open heating system. The heating boiler is located at its lowest point, and the expansion tank is at its highest point.
Closed construction. It includes all the same elements as in the open. But since the movement of the coolant in it is forced, the mandatory list of elements is supplemented by a circulation pump.
The expansion tank, which is part of a closed structure, consists of two sealed parts separated by a diaphragm. If there is an excess of expanded liquid in the system, it enters one of the chambers of the tank, forcing the diaphragm into a second chamber filled with nitrogen or air.
With the expansion of the coolant, the pressure in the system rises, the part of the tank filled with water, seeks to displace and compress the gas mixture. If the limit value of the pressure in the tank is exceeded, a safety valve is activated, which dumps excess coolant.
A closed heating system is characterized by forced movement of the coolant and the presence of a closed expansion tank with a membrane; this system is more complex than open
Each of the heating systems has its own advantages and disadvantages. They differ in a number of characteristics and are suitable for various objects. If you need to heat a small private house or cottage, use a simple and reliable open design.
The indoor heating system, more complex in installation and operation, is more often used in solid cottages and in multi-storey buildings.
Elements of the heating system
Since we are going to install water heating in the house with our own hands, we need to have an idea about the components of the proposed design.
Determining a suitable boiler
The boiler is the heart of the heating system. It is very important to choose it correctly, since the reliability of heat supply depends on it in many respects.
Heating boilers can be used either one at a time or as a pair, for example, in addition to an electric boiler, a solid fuel boiler can be introduced into the circuit in case of a power outage
Depending on the fuel used in the boiler, the following types of these devices are distinguished:
- Gas. This boiler is the most popular among consumers. It is easy to install, it works without any noise. Gas is relatively inexpensive and generates a lot of heat during combustion. But for its use, you need to get permission, order the installation of the supply line and organize exhaust ventilation in the boiler room.
- Electric. These boilers are the safest. The place of their installation does not need to be additionally equipped. During their operation, an open flame and combustion products are not formed, which could be poisoned. But the efficiency of this device is relatively small, electricity is expensive, and an energy-intensive boiler requires a reliable power supply.
- Liquid fuel. Unlike gas, these boilers are equipped with burners of a special kind. For this equipment you need a special boiler room. Liquid fuel quickly pollutes the boiler.
- Solid fuel. In these devices, coal briquettes and other types of solid fuel are burned. If you are ready to prepare firewood or coal for the entire cold season, then you can use this option.
Combined boilers are considered the most reliable, in which different types of fuel can be used. There is only one drawback of such equipment - such boilers are expensive.
What are heating radiators
In order not to be disappointed as a result of the work done, you need to responsibly approach the choice of radiators. In this case, you should focus not so much on aesthetic qualities as on the technical characteristics of the batteries. And technical properties largely depend on the material of manufacture of these products.
Modern cast-iron radiators can look very attractive, especially if the interior of the room as a whole is designed in the same style
Radiators are:
- Steel. These inexpensive products are too susceptible to corrosion. If in the summer, when heating is not used, water from the system is drained, the service life of steel radiators can be significantly reduced.
- Aluminum. These attractive-looking radiators warm up quickly enough. Only significant pressure drops affect them negatively. In private homes, this danger does not threaten them.
- Bimetallic. Such batteries from aluminum got corrosion resistance, and from steel - high heat transfer.
- Cast iron. These products are expensive, but will last a very long time. They heat up for a long time, but then cool for a long period of time. A significant weight of cast iron products is not an obstacle in their operation, but can slow down the installation process.
There are new models of radiators, on the inner surface of which a protective coating is applied. Such batteries cost a little more, but the money spent on them pays off with interest.
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Cast iron radiators for heating systems
Aluminum appliances for heating systems
Low cost steel option
How not to make a mistake with pipes
To install the heating system, many pipes are required.
Which one to give preference:
- Metal. The service life of such pipes is not too long. Over time, metal products may rust. They are mounted using threaded connections.
- Polymer. This is an inexpensive, but fairly reliable material, characterized by resistance to corrosion. These pipes can be mounted even by a layman. The pipeline from polymer pipes will last a very long time.
- Metal-plastic. The composition of these pipes is aluminum and plastic. The pipeline of them is collected on threaded or press joints. As a by-product of the high coefficient of thermal expansion of these pipes, they may crack if there is a sharp change in water temperature.
If the owners of the house have no limitations in means, it makes sense to arrange the distribution of heating from copper pipes. This is very expensive material, but the cost of it justifies itself. Such pipes are reliable and durable.
They tolerate high temperature and pressure well. For their installation they use soldering - silver-containing high-temperature solder.
Everything we told you above was about radiator water. But water as a coolant can be used in other heating systems.
When installing a water heating system, you may need a lot of pipes, so you need to calculate the feasibility of purchasing expensive products and focus on your real capabilities
Read more about the characteristics and choice of pipes for heating, read this article.
Water system "Warm floor"
“Warm floor” can both successfully supplement radiator water heating, and become the only source of space heating, if we are talking about a low-rise building. The huge advantage of the “Warm Home” is that this system provides conditions that fully meet the sanitary and hygienic standards of the room.
The air heats up unevenly along the height of the room: it is colder in the upper part of the rooms and warmer in the lower part.
Warm floor - a wonderful invention that allows you to warm the room in height in full accordance with the sanitary standards (+)
The temperature of the system is only 55 ° C, which meets the design standards. The installation of a warm floor is carried out over the entire area of each of the rooms. This is a rather complicated work, which can be qualitatively performed only at the stage of building a house. The operation of the system also causes a number of difficulties.
Skirting heating system
If the installation of the Warm House is difficult, and the radiators spoil the interior of the room, you can use the baseboard heating system.
In this type of heating, the installation of pipes is carried out behind the baseboard, that is, slightly above the floor level. At the same time, the room, as in the case of “Warm floor”, is warming up in the correct sequence.
Thanks to plinth heating, there is no need to puzzle over how to fit pipelines, collectors and radiators into the interior of a country house so that they do not catch the eye (+)
At the same time, the floor is heated, which creates favorable conditions at any time of the year. Skirting heating is becoming more and more popular and is gradually becoming fashionable.
Comparison of two-pipe and single-pipe heating systems:
The house you intend to live all year round needs heating in the cold season. To make your living conditions comfortable, you need to choose a water heating system that is most suitable for your individual conditions.
We hope that the information in this article will help you make the right choice. After all, high-quality heating is not only comfort and coziness. It is also a prerequisite for maintaining your health.
Have something to supplement, or have questions about water heating systems? You can leave comments on the publication and participate in discussions. The contact form is located in the lower block.