The heating system is an engineering structure built strictly according to a specific design principle. The main task of this system is to provide heating for buildings during the cold season. Ideally, the level of heat supplied should compensate for its losses in building structures. Also, the function of heating is to maintain a comfortable air level in all rooms located in the building. There are many options for wiring heating systems, which we suggest you read about in our material.
General information about the two-pipe heating system
Any heating system with a liquid coolant consists of one or more closed circuits connecting radiators and a boiler.
In a two-pipe distribution, hot coolant is supplied through one branch of the circuit and returned through the other, hence the name.
Diagram of a typical two-pipe heating system in a private house.
Classification signs:
- The organization of coolant movement is gravity and forced.
- Design – open or closed, horizontal or vertical.
- Pipe routing – radial, dead-end, ring.
By combining properties, you can achieve the best suitability for operating conditions.
Advantages and disadvantages
The pros and cons of a two-pipe system should be considered taking into account the operational properties and technical characteristics.
Advantages | Flaws |
Same coolant temperature in all radiators | Increased pipe consumption - 2 branches need to be led to the radiator, inlet and outlet |
Adjusting the heat output of each battery | Large diameter riser pipes and supply pipes to the first radiators in the circuit |
Low hydraulic resistance | |
Operation of the entire system in case of failure of one or more radiators | |
Use in high-rise buildings | |
Flexibility of hose options – in the floor, in the walls, along the walls, under the ceiling and behind a false ceiling |
The table shows common to all two-pipe networks. However, each wiring option may have negative qualities that limit its use, which we will consider later.
How a single-pipe heating system works: we explain it in diagrams
Schemes of open and closed two-pipe heating systems
Coolant circulation is carried out in three ways:
- gravity (gravity);
- forced using a pump;
- combined.
In addition, systems are divided into open and closed. This indicator characterizes the interaction of the coolant and the atmosphere.
When heated, the volume of any coolant liquid increases. It is known that liquid is practically uncompressible, so to accommodate the “excess” a separate device is required - an expansion tank.
Open type
Scheme of a two-pipe open-type heating system.
In open systems, the tank is installed at the highest point, it is connected to the atmosphere by a pipe.
The advantages of an open system are simplicity and a minimum of additional devices. Any type of expansion tank can be used as an expansion tank.
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Ready-made expansion tank for open-type CO.
Add water to the tank as needed. For this:
- install taps and connect the system to the water supply;
- add coolant through the opening hatch.
Attention! An open system must not be filled with antifreeze - evaporated gases can be toxic.
Closed type
In closed systems, a sealed expansion tank with an elastic diaphragm or balloon membrane inside is used. The membrane divides the device into 2 parts. Air is pumped into one chamber with a pump at a pressure of 1.2–1.5 atm, and the second is connected to the heating system pipe.
When the coolant heats up and expands, its excess fills the tank. When the temperature of the liquid drops, the membrane squeezes the coolant into the system. Preliminary injection of air into the tank allows you to maintain the pressure necessary for the operation of the boiler, the automation of which turns off the power at a pressure of less than 1.2 atm.
Antifreeze or glycols can be used in sealed structures.
Scheme of a two-pipe closed-type heating system.
In closed networks, the tank is located close to the boiler, which simplifies monitoring the performance of the entire structure.
Gravity flow schemes
Gravity (gravity) systems work due to the laws of physics. At normal atmospheric pressure, being heated to 50°C, water has a density of 988 kg/m3, and at 85°C - 968 kg/m3.
Scheme of a two-pipe open-type gravity system.
In the heating circuit, hot water (lighter) rises through the pipes, and the coolant cooled in the radiators moves down, returning to the boiler through the “return”. The circulation pump is not used.
Advantages of gravity systems:
- rare cases of airing - low coolant speed slowly squeezes air into the expansion tank;
- long service life due to the absence of a circulation pump and a membrane expansion tank, which have a limited resource;
- use of cheap coolant (water) - in case of leaks, you don’t have to buy antifreeze;
- self-regulation - when the air temperature in the building decreases, the water in the system cools faster, which increases the circulation rate, increasing the temperature in the rooms.
Independence from electricity allows you to operate the system in country houses where the power supply is often cut off, as well as install solid fuel boilers - when the circulation pump is turned off, the boiler will not boil or explode.
Gravity-flow systems also have a number of disadvantages:
- low pressure drop forces the use of large diameter pipes (up to 75-100 mm) in risers and up to 50 mm in supply branches;
- maximum contour length – 30 m;
- long warm-up after switching on, caused by the slow movement of the coolant;
- pipelines are laid at an angle to the horizon, and the expansion tank cannot be moved outside the heated room, which affects the attractiveness of the interior;
- not suitable for buildings above 3 floors.
As a result, gravity systems are preferable:
- in areas with interruptions in power supply;
- for rooms where the appearance of the structure is not important;
- for country houses no higher than 7-9 meters;
- for solid fuel boilers (coal, firewood, briquettes), which cannot be stopped instantly during a power outage.
Bypass with circulation pump.
Some of the shortcomings are eliminated by installing a bypass with a pump into the gap in the supply pipe. In normal mode, the coolant is pumped into the system by a circulation pump; when the electricity is turned off, the flow is directed through an open pipe by gravity.
Forced circulation circuits
(Repeat).
In a system with forced circulation, the same scheme of a two-pipe closed-type heating system can be used. In systems with forced circulation, a pump must be installed: as part of the boiler or remotely. Installation is carried out in front of the boiler in the return pipe, where the coolant temperature is minimal.
The pump gives the circuit advantages:
- Radiators warm up quickly, as the coolant speed increases;
- powerful pumps allow you to create large circuits;
- all radiators have approximately the same temperature;
- in closed systems it is permissible to use antifreeze, which will not freeze and will not rupture the system during prolonged shutdowns;
- pipelines do not require slopes;
- pipes of smaller diameter are used, which reduces costs.
Flaws:
- frequent cases of airing due to the rapid speed of coolant movement;
- Volatility - you will need to install powerful autonomous power supplies;
- high price of powerful and in-boiler pumps.
Attention! For systems with solid fuel boilers, an uninterruptible power supply must be provided. The boiler cannot be stopped quickly and in the absence of circulation the coolant overheats, boils and the heat exchanger explodes.
Preferred Use:
- large buildings with extended heating circuits;
- an area with high-quality electricity supply or houses with electricity backup.
Most modern types of dual-circuit systems use forced circulation.
conclusions
- Single-pipe overhead heating distribution is suitable for buildings with an attic space. It does not allow for uniform heating of rooms, but requires lower costs for materials and installation.
- Two-pipe wiring is the choice of owners of cottages intended for permanent residence. Manual and automatic valves guarantee room temperature regulation.
- Bottom routing allows you to disguise pipes in a floor or wall structure.
- The heating network with natural circulation has a limited range of 30 m.
- For multi-story buildings, it is preferable to use a pump. It guarantees the required circulation speed.
- Maximum controllability is typical for the collector system, in which individual radiators can be adjusted and switched off.
The design and installation of heating wiring requires complex engineering calculations, so it is better to entrust the work to specialists. And not for “general profile” builders, but specifically for engineers.
Specialists will select the optimal heating scheme for your home, draw up a project and estimate, and help with installation. The company operates in the Sverdlovsk region.
Types of pipe routing and heating systems construction
The types of heating system are determined by the spatial placement of radiators and pipes.
There are different layout schemes:
- horizontal or vertical;
- upper or lower wiring;
- with direct and reverse flow of coolant;
- pipe distribution to radiators - dead-end, radial, ring.
Each type and their combinations have quality characteristics that determine the choice depending on operating conditions.
Top or bottom wiring
Scheme of a two-pipe heating system with overhead wiring.
The upper distribution can be arranged in systems with gravitational and forced circulation, as well as in their combined version. The hot coolant is supplied through the central riser into the upper horizontal pipe from which it is distributed among the risers. The pipes are located under the ceiling of the upper floor.
Advantages | Flaws |
The difference in pressure allows the use of a large number of radiators | The pipes give off some of the heat in the upper part of the room, which reduces efficiency |
Suitable for various construction schemes | Requires large diameter wiring, which is more expensive |
Low hydraulic resistance | The appearance is not suitable for some interiors |
Possibility of installing thermostats on each radiator or riser | Sometimes the expansion tank will have to be taken out into an unheated attic and high-quality insulation carried out |
Low network pressure (up to 3-4 atm) is suitable for all types of radiators, including aluminum | Additional equipment will be required to install heated floors. |
The diameter of the pipes and the length of the circuits increases the volume of coolant, for pumping which powerful pumps are purchased.
Scheme of a two-pipe heating system with bottom wiring.
Systems with bottom wiring are distinguished by the location of the supply pipe and return pipe below the level of the radiators.
Mostly such schemes are used in systems with forced circulation.
Advantages of lower wiring:
- pipelines can be hidden in the floor or walls;
- there is no need to make a common riser, which allows you to organize heating for the first floor built, and equip the second and subsequent floors as needed;
- By installing collectors, you can organize a “warm floor” system.
An example of a collector unit that distributes coolant along the contours of a “warm floor”.
Among the disadvantages, users note frequent airing, and installers note difficulties with initial setup and balancing.
Vertical and horizontal wiring
Scheme of horizontal and vertical distribution of two-pipe CO.
The horizontal and vertical schemes differ in the presence of a main riser.
Vertical types are mainly used in multi-story buildings. The horizontal view is suitable for buildings of any number of storeys; when arranging, the design is taken into account and a pump of the required power is selected.
Designers and installers distinguish between several basic diagrams for pipe routing in heating systems.
Three basic diagrams of pipe routing.
The dead-end circuit is installed in most country houses and has another name - with reverse (counter) movement of the coolant. Supply and discharge pipes are connected to each radiator. Circulation is carried out by a pump. The main advantage of the system is that the coolant reaches all radiators at the same temperature, and with the help of regulators it is possible to maintain the required microclimate in each room.
Flaws:
- a large number of welded and coupling connections;
- a professional hydraulic calculation is required if there are more than 3 radiators in one circuit;
- There is often noise from moving coolant.
A Tichelman loop or a scheme with a parallel movement of the coolant is used in the lower horizontal distribution and allows you to hide the pipes under the floor covering or in the screed. According to reviews from installers, the associated scheme requires minimal configuration. The Tichelman loop works great with a large number of radiators, but will require an increased pipe diameter.
When installing radial distribution, collectors are used that are installed on each floor of the building.
Diagram of radial wiring of two-pipe CO to radiators with bottom connection.
The circuit feeds each radiator separately and allows the installation of a “warm floor” system. An important disadvantage is the high cost of purchasing pipes.
Circuit mounting options
The main pipeline transporting the coolant can not only have different configurations, called wiring, but also be installed differently.
When choosing an installation option, you should take into account aesthetic, energy and economic feasibility.
The installation of the highway can be done in two ways: open or hidden:
- The open installation method is simpler and cheaper - the circuit is laid in accordance with the selected wiring diagram, and the only additional work required is to secure the pipes to prevent their deformation. In addition, in this case, the main line, in addition to transporting the coolant, also performs a heat transfer function, that is, it additionally heats the premises. At the same time, a pipeline left in sight spoils the interior, it is not protected from external damage and is itself a source of danger: you can get burned on it, flammable materials left nearby can ignite, and if the pipeline ruptures, not only damage to the external and internal decoration of the room, but also there is a risk of injury.
- Installing a pipeline in a hidden way involves laying pipes in channels made in the wall, floor, under the baseboard or behind the suspended ceiling. A simplified option is to make a false wall or use boxes and various pipe covers. Concealed installation ensures safety and looks more aesthetically pleasing.
We recommend that you read: Features of using a shut-off and control valve with an electric drive
Important! Pipes hidden from view increase energy costs. In addition, the labor costs for equipping such a highway and the consumption of materials increase, and when using false walls and overlays, the usable space of the premises decreases.
What type of wiring to choose
The choice of construction scheme depends on the expected operating conditions:
- In buildings above 2 floors, heating is installed with main risers in a vertical pattern.
- In areas with frequent or prolonged power outages, preference is given to gravity systems with non-volatile boilers.
- For large objects, systems with forced circulation are installed, built using a horizontal type of wiring. The most suitable scheme in is the Tichelman loop.
- For independent execution, inexperienced users choose a dead-end wiring with several arms.
- When pouring pipes into the floor, it is advisable to choose a radial scheme with collectors on each floor - in the event of an emergency pipe rupture, you can turn off 1 radiator, postponing costly repairs with opening the floors.
- Small country houses, bathhouses and utility rooms are equipped according to a dead-end scheme.
Each specific case must be considered individually, taking into account the advantages and disadvantages of the types and types of heating systems.
What are combi boilers
Since electric heating is expensive, you can use an alternative solution and choose a boiler that can operate on two types of fuel. For example, you can purchase electrical equipment that can also perform the functions of a gas water heater. Or you can choose a solid fuel boiler that can also work with electricity for some time.
As long as there are no interruptions in the gas supply, such a boiler will work properly according to the generally accepted scheme, but as soon as any problems arise, it will be possible to switch to another type of fuel and thereby provide stable heating to the house.
A combination boiler is more expensive than a regular boiler, but such expenses will be completely justified: your home is guaranteed not to be left without heat, and even if one system fails, the second will immediately be able to support it. The temperature level will remain at the same values, and it will be comfortable to be in the room.
It is quite difficult to independently design and implement an individual heating system, but it is still possible. Your home will receive reliable heating, which will not depend on the presence or absence of gas pipes.
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Hydraulic calculation of a two-pipe heating system
The purpose of the hydraulic calculation is to determine the minimum required pipe diameter already at the design stage and select (if necessary) a circulation pump of sufficient power.
The general sequence boils down to the following steps:
- Calculation of the required power of radiators and construction of a general heat balance diagram.
- Determination of coolant flow in each arm of the circuit.
- Calculation of pipeline diameters.
- Selecting the required pump performance.
Only specialists with thermal engineering education can make accurate calculations, and we recommend contacting a specialized organization.
For most craftsmen who want to independently equip the heating system of a small house , you can limit yourself to an approximate calculation and include a 10-15% reserve for the power of the batteries, boiler, pipe diameter and pump performance.
Determination of the minimum required power
To accurately calculate the thermal power of radiators (and, accordingly, the boiler), you can use a calculator.
Houses made from standard building materials and with high-quality insulation will require 1.5-2 kW of radiator thermal power per 10 m2 of area in the northern regions, 1-1.5 in the middle zone and 0.6-1 kW in the southern regions.
The calculation is done for each room, and then all the indicators are added up. The data is plotted on a single diagram for further calculations.
Coolant flow
The amount of coolant required per unit time is calculated for each arm of the circuit.
To do this, use the formula: G=860* q/ ΔT , where
- G—coolant flow rate kg/h;
- q is the thermal power of radiators in the calculated area (kW);
- ΔT is the difference in coolant temperature at the inlet and outlet of the radiator, usually taken to be 20 °C.
For example, for a branch with a total radiator power of 3 kW and a coolant in the form of water, a flow rate of 860 * 3/20 = 129 kg/hour will be required.
For further calculations, the result is converted into data for water at a temperature of 60°C (the most common parameter in individual houses).
Use the formula: GV = G /3600ρ , where
- GV - water flow, measured in l/sec;
- ρ is the density of water at 60°C.
Result: 129/3600*0.983=0.035 l/sec.
Next, you need to find the resulting value in the hydraulic calculation tables for pipes; they can be found on the websites of pipe manufacturers.
An example of such a table.
For our example, a pipe with an internal diameter of at least 16 mm will be sufficient.
Important! Steel pipes are marked with the outer diameter, polypropylene pipes with the inner diameter.
Calculations are carried out separately for each circuit and displayed on the diagram. By adding up the flow rate by section, a general indicator is obtained, which is taken into account when choosing riser pipes and a circulation pump.
Connecting radiators
The choice of method for connecting them depends on their total number, installation method, length of pipelines, etc. The most common methods are:
• diagonal
(cross) method: the straight pipe is connected to the side of the battery at the top, and the return pipe is connected to its opposite side at the bottom; this method allows the heat carrier to be distributed across all sections as evenly as possible with minimal heat loss; used with a significant number of sections;
• one-sided:
also used with a large number of sections, the hot water pipe (straight pipe) and the return are connected on one side, allowing for sufficient uniform heating of the radiator;
• saddle:
if the pipes go under the floor, it is most convenient to attach the pipes to the lower pipes of the battery; due to the minimal number of visible pipelines, it looks attractive in appearance, but the radiators heat unevenly;
• lower:
the method is similar to the previous one, the only difference is that the direct pipe and the return pipe are located almost at the same point.
Methods for connecting radiators
To protect against the penetration of cold and create a thermal curtain, the batteries are located under the windows. In this case, the distance to the floor should be 10 cm, from the wall - 3-5 cm.