When deciding how to heat his own house, the owner can choose from a variety of heating technologies. Common to them is a similar set of structural elements, which includes a boiler, a pipe system and heating devices that directly heat the room.
There are differences in the connection schemes of pipelines, one of its options is a radiant heating system, the characteristics and construction rules of which will be discussed in the article. We described in detail the specifics of the collector wiring, gave options for its device. Outlined the selection criteria for equipment for the construction of circuits.
For a clear perception of the information presented, the text is supplemented by collections of photos, useful schemes, videos.
Significant Radiation Benefits
The main task of the heating system is to compensate for the heat that the building loses due to the differences between the internal and external air temperature, as well as in connection with the different degree of thermal conductivity of the external walls. Its solution in many respects depends on a competently selected scheme for the layout of pipes that deliver the coolant to the devices.
In practice, you can connect all heating devices together using the following methods:
- tee connection;
- radiation (collector) connection, when a separate pair of pipes is supplied to each heating device using the collector for direct and reverse supply of the coolant.
The tee or perimeter type of pipe connection is cheaper. But due to the fact that the devices are connected to each other and connected by a pipeline to a single riser, the system will need to be completely disconnected and released from the coolant to repair a separate radiator or section. Or equipped with bypasses and shutoff valves, which will significantly increase the cost of organizing heating.
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An indisputable argument in favor of the installation of a radiant heating system is its efficiency, far exceeding the contours with tee wiring
The layout of the beam variety of heating is carried out by floors. It is arranged mainly with a lower eyeliner to devices
The construction of heating systems according to the ray principle became possible due to the development and implementation of reinforced metal-plastic and polypropylene pipes
Pipes are supplied to each heating device in the form of rays coming from a distribution comb - collector
The parallel principle of connecting devices to the pipeline provides an almost equal temperature in them. The difference between the supply and return temperatures is also minimal, which significantly reduces the load on the system
In the collector system there can be only one ring connected to the comb, or several secondary rings into which the coolant is delivered through the primary ring
For normal operation, the system is equipped with at least one circulation pump, although it is recommended to install them on each of the rings. An air vent, pressure gauge and pressure relief valve are installed.
The collector is located in the closet, in two-story houses on the floor, one collector is installed, which are interconnected by risers
The weighty advantage of the radiation system
Floor layout of the device
The use of flexible polymer pipes
Option for connecting pipes to the radiator
Technical advantages of the beam version
The principle of primary and secondary rings
Beam technical equipment
The collector in the designated cabinet
With traditional perimeter wiring, the entire pipeline is most often mounted in an open way, less often hidden. Radiant heating systems are predominantly laid in walls or floors, as a large number of pipes laid on top of structures negatively affects the interior.
Flush-mounted installation is carried out by a system of underfloor heating pipes, which, in accordance with technological specifics, is arranged according to a radiation pattern. The radial pipeline to the heating devices is also laid in the floor screed in a hidden way, because this is better for technological and architectural reasons.
Assembling the pipeline according to the radiation scheme will cost significantly more than installing the system along the perimeter method. However, due to the specifics of such wiring, the heated coolant is delivered to all points at the same time.
A large number of pipes when using the beam method of assembling pipelines can ruin the interior. Therefore, all heating communications are laid on the floor or walls.
In this case, all joints remain on the surface, so there is practically no risk of leakage under the screed. With a tee system this cannot be done, because if the joints wear, you will have to break the walls and floor.
In order to reduce the consumption of pipes, the pipelines assembled according to the radiation pattern are laid not along the perimeter, but in the shortest ways - from the collector to the device
The main disadvantage of the collector wiring is the high material consumption, which consists in a large extent. For normal operation requires technical devices, as these are exclusively coercive schemes. And the main plus is that in each room you can adjust a different temperature, creating a comfortable microclimate in any room.
Each radiator or convector is connected independently, which is also convenient for servicing and replacing worn-out system elements without having to turn off the heating in the entire house or apartment.
Flush mounting can significantly improve the visual appearance of any room, leaving visible only radiators
The principle of organization of the beam scheme
One of the central elements of the radiation system is the collector assembly. If you are going to make heating in a house with several floors, then the collector should be located at each level.
Collectors during installation are placed in a manifold cabinet, where a convenient arrangement of this element for subsequent maintenance or adjustment is provided.
The beam layout is used for single and double pipe systems. The first option assumes that the supply and collection of coolant is made by one collector. The second option involves the use of two collectors for supply and return
An indisputable advantage of the radiation system is the minimum number of connections, which positively affects the hydraulic stability of the entire heating system. The central working body is the boiler.
To ensure high efficiency and safety, the owner needs to take into account the power of the unit, the consumption of thermal energy by heating devices and the heat loss of the system. This must be done, regardless of the type of fuel the boiler is running on.
An increase in the length of the pipeline when creating a beam wiring is fraught with a slight increase in heat loss, which also needs to be taken into account for a balance of capacities.
In a single-tube beam distribution of heating circuits, the heat carrier prepared for heating devices is supplied with the same collector that collects the return and sends it to the boiler (+)
Choose a circulation pump
Radial piping is used mainly in horizontal circuits with a lower flow of coolant. It requires a circulation pump that stimulates the movement of heated water along numerous branches.
The controlled circulation of the heat carrier makes it possible to reduce the temperature difference at the inlet and outlet of the heating circuit. As a result, it is possible to increase the heating efficiency by making the system more compact and less material-intensive.
When selecting and installing a circulation pump, a number of features must be taken into account, using which you can achieve high overall system performance
This unit is selected according to several important parameters, including:
- productivity, m3/hour;
- head height, m.
In order to correctly select a circulation pump for these parameters, it is necessary to take into account the diameter of the pipes, their length and height relative to the level of location of the pump unit. When designing a heating system installation, these parameters are calculated in advance.
Circulation pump installation rules
Adhering to the recommendations below, you can achieve high efficiency and heating safety:
- wet rotary circulation pumps are installed so that the shaft has a horizontal position;
- the device with the thermostat should not be close to hot surfaces (radiator or boiler) so that the readings are not distorted;
- usually installed in the return section of the pipeline due to lower temperatures. Modern models can also be mounted in the supply line, withstanding high temperature conditions;
- The heating circuit must be equipped with an air bleed mechanism. If not, then the pump must have an air vent;
- should be located as close as possible to the expansion tank;
- Before installing the pump, it is recommended to flush the system to remove solid particles;
- before starting the pump, fill the system with water;
In order not to become a victim of excessive noise, choose a pump in accordance with the performance of the heating system.
Is it possible without a pump?
Of course, you can save money and not buy a pump, air vents for bleeding air, sensors, etc. But a radiation system with natural circulation requires the observance of several not very convenient conditions.
Experts recommend this option in extremely rare cases. Firstly, you need to install pipes of wide diameter. Secondly, the expansion tank must be installed at the highest point of the facility.
To save on components, you can do without a pump, but this is only possible subject to a number of conditions and only for small buildings
This option is suitable for a summer residence or other object modest in area, providing enough heat. The choice between natural circulation and forced circulation should be made at the design stage.
Choose a distribution manifold
This device is also called a distribution comb. It serves to supply coolant to each heating device (underfloor heating, radiator, convector, etc.). By means of a collector, a return flow also takes place, which then enters the boiler or is again mixed into the circuit to adjust the temperature.
The collector can support from 2 to 12 loops. Some manufacturers offer even more branches for complex projects.
Distribution manifold is the main transport terminal, which serves to distribute the coolant in the right amount for each room or heater
Combs are often equipped with additional locking-regulating and thermoregulating elements. They allow you to set the optimal flow rate for each heating branch. The presence of air vents ensures a more efficient and safe operation of the system.
Beam wiring diagram
Choosing a heating scheme, in most cases they stop at the beam floor wiring of the pipeline. All pipes are hidden from view in the thickness of the floor. Collector - the main distribution body is installed in the niche of the wall fence, often in a special cabinet located in the center of the house / apartment.
In the vast majority of cases, the implementation of beam wiring requires a circulation pump, and sometimes several, installed on each ring or branch. Its necessity is described above. Radial wiring of the heating system assembly is most often performed on the basis of one- and two-pipe installation, almost completely displacing the tee type of connection.
This is a simplified diagram of the beam distribution in which each radiator is connected to the collector connector for direct and reverse supply of coolant
On each floor near the riser of the two-pipe system, the supply and return manifolds are mounted. Under the floor, pipes from both collectors pass in the wall or under the floor and are connected to each radiator within the floor.
Each of the contours should have approximately the same length. If this cannot be achieved, then each ring must be equipped with its own circulation pump and automatic equipment to adjust the temperature.
In this case, the change in temperature will be completely independent on each circuit and will not affect each other. Because the pipeline will be under the screed, each radiator must be equipped with an air crane. The air vent can also be placed on the manifold.
What needs to be done before installation?
Before starting work, the task of the owner is to select all components and equipment locations correctly, namely:
- determine location radiators;
- choose type of radiators, based on the pressure indicators and the type of coolant, as well as determine the number of sections or the area of the panels (to calculate the heat loss and calculate the heat capacity needed for high-quality heating of each room);
- sketch the arrangement of radiators and routes of the pipeline, not forgetting about the other elements of the heating system (boiler, collectors, pump, etc.);
- make a paper list all items and make purchases. In order not to make a mistake in the calculation, you can invite a specialist.
So, to proceed to the next stage, it is necessary to take into account the installation rules of the radiation system
Beam installation rules
If you choose to lay pipes under the floor, follow a few rules that will help to avoid heat loss and freezing of the coolant. There should be enough space between the rough and finish floors (more on this later in the description).
When installing pipes in the floor, it is important to consider several requirements, one of which is the availability of sufficient space between the finishing and rough floors
The subfloor may be a concrete foundation slab. First, a layer of insulation is laid on it, then a pipeline is arranged. If pipes are laid without a heat-insulating substrate, then the water in these areas can freeze, losing a lot of heat.
As for pipes, it is better to opt for polyethylene or metal-plastic models that have high flexibility. The polypropylene pipeline bends poorly, therefore, it is not suitable for radiation wiring.
In most cases, a pipe with a diameter of 16 - 20 mm is used (if the radiator power is more than 1.5 kW, then 20 mm), on which a heat-insulating corrugation is put on to reduce heat loss and compensate for thermal expansion.
The pipeline must be attached to the base so that it does not float during pouring with a finishing layer of screed. You can fix it using mounting tape, plastic clamps or other available methods.
The pipe under the screed must be insulated to reduce heat loss to a minimum, and on the ground floor it is necessary to lay a layer of thermal insulation
Then around the pipeline we lay the insulation with a layer of 50 mm made of foam or foam. We also fasten the insulation to the base of the floor with the help of dowels-nails. The final step is to fill the solution with a layer of 5-7 cm, which will serve as the basis of the finishing floor.On this surface you can already lay any floor covering.
If pipes are laid on the second floor or higher, installation of a thermal insulation layer is optional. Remember one important rule, there should not be any connections in sections of the pipeline under the floor.
In the presence of a circulation pump of sufficient power and performance, the collector is sometimes placed a floor lower relative to the level of radiators.
If the collector is located at the lower level (basement), then you need to take into account several rules for the correct connection of pipes from the comb to the radiators, which are at the next level
From the manifold, pipes rise vertically to the ceiling. Then a bend is made and a pipeline along the ceiling is brought to each radiator with another bend of 90 degrees. The pipes must be fixed to the ceiling. Thus, the vertical pipe through the ceiling is connected to each heater.
Beam wiring and floor heating
The radiation scheme can also be used to equip the “warm” floor system. With a well-designed project, taking into account all factors, you can abandon radiators, making a heated floor the main source for heating.
Heat flows will be evenly distributed throughout the room, without creating a convection effect, unlike radiators. As a result, there is no dust circulation in the air.
Before embarking on the implementation of the idea of installing underfloor heating, it is important to consider the following features:
- a reflective screen with a layer of thermal insulation is laid on a concrete or wooden base;
- pipes are laid on top in a loop-like pattern;
- Before pouring concrete, a hydraulic test of the system is performed under pressure throughout the day;
- the finish layer is screed or flooring.
The collector of each circuit should be equipped with flow meters and thermostatic valves, which allow accurate control of the flow of coolant and regulate its temperature.
When piping, thermostatic heads and servos can be used. These devices allow you to automate the work of a warm floor. The system will respond to changes in room temperature, setting a comfortable mode for each room.
Radial wiring for the warm floor requires equipping the collector with several components that allow you to control, automate and control floor heating to achieve maximum comfort and energy efficiency
When installing, it is extremely important to fix the pipes correctly before filling everything with a screed. To do this, you can use insulation with grooves, reinforcing mesh or staples.
Before laying the pipeline, it is necessary to clearly determine the route that the coolant will travel to heat the floor (do not allow pipes to cross). It is best to cut the pipe only after full installation and connection to the return and supply manifolds.
It is important that the pipeline is pressurized during filling. Until the concrete mixture has hardened completely and three weeks have passed, it is impossible to supply a coolant with an operating temperature. Only then we start at 25ºС and after 4 days we finish with the design temperature.
Options for wooden houses
To lay the pipeline in a wooden base, it is necessary to drill holes in the wooden beams of the ceiling. In this case, the holes should be slightly larger than the diameter of the pipes so that the beam and the entire structure do not create pressure on the pipeline.
When installing beam distributions in wooden floors, it is important that the floor structure does not create pressure on the pipes, and the latter are securely fixed
In our example, the rough floor is wooden, on which the pipe system is located. Again, in the thickness of the floor there should not be any connections, because they should be located exclusively above the floor.
Parsing Pros and Cons
Let's start with the cons. In addition to the material consumption, which affects the cost of the project, is the need to install a manifold cabinet, which will require additional space.
On this, the shortcomings of the radiation system end, and a ridge of advantages begins:
- simple design and installation, pipes of the same diameter are used within the system;
- for flush mounting in the walls and floor there are no connections;
- high installation speed due to the minimum number of connections;
- expansion of functionality due to the installation of valves, sensors, air vents and thermal heads to automate the operation of the heating system;
- temperature control in each separate room, using mechanical elements or automation;
- the ability to cut off any radiator without stopping the heating process;
- uniform heating of all rooms.
The external control panel allows you to program the heating operation, including automatic adjustment depending on weather conditions on the street. Thanks to the installed sensors, all residents can set any parameters that are comfortable for them, being in a particular room.
The radiation system is materially expensive in terms of implementation, but ahead of all other options in the flexibility of settings and ensuring the effectiveness of all heating
Thus, the radial layout of the wiring allows you to achieve high controllability of the heating system and achieve optimal flow rate.
The clip will help you visually understand the installation features and understand how the heating system works with beam distribution:
An energy-efficient heating system is a balanced combination of all its components. Pipe routing serves as a kind of circulatory system for heating. The beam method of installing the pipeline allows you to deliver exactly as much coolant as each working device needs for its optimal operation.
Do you want to ask questions about obscure points that interested you in familiarizing yourself with the material? Would you like to communicate useful subtleties on the design of radiation systems? Please write comments in the block below.