Temperature schedule 90 70. Heating system temperature schedule

The standard temperature of the water in the heating system depends on the air temperature. Therefore, the temperature schedule for supplying the coolant to the heating system is calculated in accordance with weather conditions. In the article we will talk about the SNiP requirements for the operation of the heating system for objects of different purposes.

from the article you will learn:

In order to economically and efficiently use energy resources in the heating system, the heat supply is tied to the air temperature. The dependence of the temperature of the water in the pipes and the air outside the window is displayed in the form of a graph. The main task of such calculations is to maintain comfortable conditions for residents in apartments. For this, the air temperature should be about + 20 ... + 22 ° C.

Heating medium temperature in the heating system

The more severe the frosts, the faster the living quarters heated from the inside lose heat. To compensate for the increased heat loss, the water temperature in the heating system increases.

In the calculations, a standard temperature indicator is used. It is calculated using a special methodology and entered into the guidance documentation. This figure is based on the average temperature of the 5 coldest days of the year. The calculation is based on the 8 coldest winters over a 50-year period.

Why is the drawing up of the temperature schedule for supplying the coolant to the heating system this way? The main thing here is to be prepared for the most severe frosts that happen every few years. Climatic conditions in a particular region can change over several decades. This will be taken into account when recalculating the schedule.

The value of the average daily temperature is also important for calculating the safety factor of heating systems. With an understanding of the ultimate load, you can accurately calculate the characteristics of the required pipelines, valves and other elements. This saves on the creation of communications. Considering the scale of construction for urban heating systems, the amount of savings will be quite large.

The temperature in the apartment directly depends on how much the coolant in the pipes is heated. In addition, other factors play a role here:

• air temperature outside the window;
• wind speed. Under strong wind loads, heat losses through doorways and windows increase;
• the quality of sealing joints on the walls, as well as the general condition of the decoration and insulation of the facade.

Building codes change with advances in technology. This is reflected, among other things, in the indicators in the graph of the temperature of the coolant depending on the outside temperature. If the premises retain heat better, then energy resources can be spent less.

Developers in modern conditions are more careful about the thermal insulation of facades, foundations, basements and roofs. This increases the value of the objects. However, along with the rise in construction costs, they are decreasing. Overpayment at the construction stage pays off over time and provides good savings.

The heating of the premises is directly influenced not even by how hot the water in the pipes is. The main thing here is the temperature of the heating radiators. It is usually within the range of + 70 ... + 90 ° C.

Several factors affect the heating of batteries.

1. Air temperature.

2. Features of the heating system. The indicator indicated in the temperature graph of the coolant supply to the heating system depends on its type. In one-pipe systems, water heating up to + 105 ° C is considered normal. Two-pipe heating, due to better circulation, gives a higher heat transfer. This allows the temperature to be lowered to + 95 ° C. Moreover, if at the inlet the water needs to be heated, respectively, to + 105 ° C and + 95 ° C, then at the outlet its temperature in both cases should be at the level of + 70 ° C.

So that the coolant does not boil when heated above + 100 ° C, it is supplied to the pipelines under pressure. In theory, it can be quite high. This should provide a large supply of heat. However, in practice, not all networks allow supplying water under high pressure due to their deterioration. As a result, the temperature decreases, and in severe frosts, there may be a lack of heat in apartments and other heated premises.

3. Direction of water supply to radiators. The difference is 2 ° C at the top, and 3 ° C at the bottom.

4. The type of heating devices used. Radiators and convectors differ in the amount of heat given off, which means that they must work in different temperature regimes. It is the radiators that have better heat transfer rates.

At the same time, the amount of heat released is influenced, among other things, by the temperature of the outside air. It is she who is the determining factor in the temperature schedule for supplying the coolant to the heating system.

When the water temperature is indicated as + 95 ° C, we are talking about the coolant at the entrance to the dwelling. Taking into account the heat loss during transportation, the boiler room must heat it up much more.

In order to supply water of the required temperature to the heating pipes in apartments, a special equipment... It mixes hot water from the boiler room with that coming from the return.

Temperature graph of the heating agent supply to the heating system

The graph shows what should be the water temperature at the entrance to the dwelling and at the exit from it, depending on the outside temperature.

The presented table will help you easily determine the degree of heating of the coolant in the central heating system.

Temperature indicators of air outside, ° С	Temperature indicators of water at the inlet, ° С			Temperature indicators of water in the heating system, ° С		Temperature indicators of water after the heating system, ° С

Representatives of utilities and resource supplying organizations measure the temperature of the water using a thermometer. Columns 5 and 6 indicate the numbers for the pipeline through which the hot coolant is supplied. Column 7 - for the return.

The first three columns indicate the increased temperature - these are indicators for heat generating organizations. These figures are given without taking into account the heat losses occurring during the transportation of the heat carrier.

The temperature schedule for supplying the coolant to the heating system is needed not only by resource supplying organizations. If the real temperature differs from the normative one, consumers have grounds for recalculating the cost of the service. In their complaints, they indicate how much the air warms up in apartments. This is the simplest parameter to measure. Inspection bodies can already track the temperature of the coolant, and if it does not comply with the schedule, force the resource supplying organization to fulfill its duties.

The reason for complaints appears if the air in the apartment cools down below the following values:

• in corner rooms in the daytime - below + 20 ° C;
• in the central rooms during the daytime - below + 18ºС;
• in corner rooms at night - below + 17 ° C;
• in the central rooms at night - below + 15ºС.

SNiP

Requirements for the operation of heating systems are enshrined in SNiP 41-01-2003. Great attention this document focuses on security issues. In the case of heating, a heated coolant carries a potential hazard, which is why its temperature for residential and public buildings is limited. As a rule, it does not exceed + 95 ° C.

If the water in the internal pipelines of the heating system heats up above + 100 ° C, then the following safety measures are provided for at such facilities:

• heating pipes are laid in special shafts. In the event of a breakthrough, the coolant will remain in these fortified channels and will not be a source of danger to people;
• pipelines in high-rise buildings have special structural elements or devices that do not allow water to boil.

If the building is heated from polymer pipes, then the temperature of the coolant should not be more than + 90 ° C.

We have already mentioned above that in addition to the temperature schedule for supplying the coolant to the heating system, responsible organizations need to monitor how much the available elements of heating devices are warming up. These rules are also given in SNiP. The permissible temperatures vary depending on the purpose of the room.

First of all, everything here is determined by the same safety rules. For example, in children's and medical institutions, the permissible temperatures are minimal. In public places and at various production facilities, there are usually no special restrictions for them.

According to general rules, the surface of heating radiators should not heat up above + 90 ° C. If this figure is exceeded, negative consequences begin. They consist, first of all, in the burning of paint on batteries, as well as in the combustion of dust in the air. This fills the indoor atmosphere with substances harmful to health. In addition, harm to appearance heating devices.

Another issue is ensuring safety in rooms with hot radiators. According to general rules, it is supposed to protect heating devices, the surface temperature of which is higher than + 75 ° C. Usually, lattice fences are used for this. They do not interfere with air circulation. At the same time, SNiP presupposes mandatory protection of radiators in childcare facilities.

In accordance with SNiP, the maximum temperature of the coolant varies depending on the purpose of the room. It is determined both by the heating characteristics of different buildings and by safety considerations. For example, in hospitals, the permissible temperature of water in pipes is the lowest. It is + 85 ° C.

The maximum heated coolant (up to + 150 ° C) can be supplied to the following objects:

• lobbies;
• heated pedestrian crossings;
• staircases;
• technical premises;
• industrial buildings, in which there are no aerosols and dust prone to ignition.

The temperature schedule for supplying the coolant to the heating system according to SNiP is used only in the cold season. In the warm season, the document under consideration normalizes the microclimate parameters only in terms of ventilation and air conditioning.

The basis for an economical approach to energy consumption in any type of heating system is the temperature schedule. Its parameters indicate the optimal value of water heating, thereby optimizing costs. In order to apply this data in practice, you need to learn more about the principles of its construction.

Terminology

Temperature graph - the optimal value for heating the coolant to create a comfortable temperature in the room. It consists of several parameters, each of which directly affects the quality of the entire heating system.

1. Temperature in the inlet and outlet pipes of the heating boiler.
2. The difference between these indicators of heating the coolant.
3. Indoor and outdoor temperature.

The latter characteristics are decisive for the regulation of the first two. Theoretically, the need to increase the heating of water in the pipes occurs when the temperature outside decreases. But how much needs to be increased so that the heating of the air in the room is optimal? To do this, draw up a graph of the dependence of the parameters of the heating system.

When calculating it, the parameters of the heating system and the residential building are taken into account. For centralized heating, the following temperature parameters of the system are adopted:

• 150 ° C / 70 ° C. Before entering the users, the coolant is diluted with water from the return pipe to normalize the entering temperature.
• 90 ° C / 70 ° C. In this case, there is no need to install equipment for mixing streams.

According to the current parameters of the system, utilities must monitor compliance with the heating medium heating value in the return pipe. If this parameter is less than normal, it means that the room is not warming up properly. The excess indicates the opposite - the temperature in the apartments is too high.

Temperature schedule for a private house

The practice of drawing up such a schedule for autonomous heating is not very developed. This is due to its fundamental difference from the centralized one. Regulation of the temperature of the water in the pipes can be carried out in manual and automatic modes. If, during the design and practical implementation, the installation of sensors for automatic regulation of the boiler and thermostats in each room was taken into account, then there will be no urgent need to calculate the temperature schedule.

But for calculating future expenses depending on weather conditions, it will be irreplaceable. In order to draw up it according to the current rules, the following conditions must be taken into account:

Only after these conditions are met, it is possible to proceed to the calculation part. Difficulties may arise at this stage. The correct calculation of an individual temperature graph is a complex mathematical scheme that takes into account all possible indicators.

However, to facilitate the task, there are already ready-made tables with indicators. Below are examples of the most common operating modes of heating equipment. The following input data were taken as initial conditions:

• The minimum air temperature outside is 30 ° С
• The optimum room temperature is + 22 ° С.

Based on these data, schedules were compiled for the following types of heating systems operation.

After installing the heating system, it is necessary to set the temperature mode. This procedure must be carried out in accordance with existing standards.

Temperature standards

The requirements for the temperature of the coolant are set out in the regulatory documents that establish the design, installation and use of engineering systems for residential and public buildings. They are described in the State Building Regulations and Rules:

• DBN (V. 2.5-39 Heating networks);
• SNiP 2.04.05 "Heating, ventilation and air conditioning".

For the calculated supply water temperature, the figure is taken that is equal to the temperature of the water leaving the boiler, according to its passport data.

For individual heating, it is necessary to decide what the coolant temperature should be, taking into account the following factors:

• 1Start and end of the heating season at an average daily outdoor temperature of +8 ° C for 3 days;
• 2The average temperature inside heated premises of housing and communal and public importance should be 20 ° C, and for industrial buildings 16 ° C;
• 3 The average design temperature must meet the requirements of DBN V.2.2-10, DBN V.2.2.-4, DSanPiN 5.5.2.008, SP No. 3231-85. According to SNiP 2.04.05 "Heating, ventilation and air conditioning" (clause 3.20), the limiting parameters of the coolant such:
• 1
  For a hospital - 85 ° C (excluding psychiatric and drug wards, as well as administrative or household premises);
• 2For residential, public, and also household structures (not counting halls for sports, trade, spectators and passengers) - 90 ° С;
• 3For auditoriums, restaurants and premises for production of categories A and B - 105 ° C;
• 4For catering establishments (excluding restaurants) - this is 115 ° С;
• 5For production premises (category C, D and D), where combustible dust and aerosols are emitted - 130 ° C;
• 6For staircases, lobbies, pedestrian crossings, technical premises, residential buildings, production premises without the presence of combustible dust and aerosols - 150 ° C. Depending on external factors, the water temperature in the heating system can be from 30 to 90 ° C. When heated above 90 ° C, dust and paintwork begin to decompose. For these reasons, sanitary standards prohibit more heating.

  To calculate the optimal indicators, special charts and tables can be used, in which the norms are determined depending on the season:

  • With an average indicator outside the window of 0 ° C, the flow for radiators with different wiring is set at a level from 40 to 45 ° C, and the return temperature is from 35 to 38 ° C;
  • At -20 ° C, the feed is heated from 67 to 77 ° C, and the return rate should be from 53 to 55 ° C;
  • At -40 ° C outside the window for all heating devices set the maximum permissible values. On the supply line it is from 95 to 105 ° C, and on the return line - 70 ° C.

  Optimum values ​​in an individual heating system

  

  Autonomous heating helps to avoid many problems that arise with a centralized network, and the optimal temperature of the heating medium can be adjusted in accordance with the season. In the case of individual heating, the concept of norms includes the heat transfer of the heating device per unit area of ​​the room where this device is located. The thermal regime in this situation is provided by the design features of the heating devices.

  It is important to ensure that the heat carrier in the network does not cool below 70 ° C. An indicator of 80 ° C is considered optimal. With a gas boiler, it is easier to control heating, because manufacturers limit the possibility of heating the coolant to 90 ° C. Using sensors to regulate the gas supply, the heating of the coolant can be controlled.

  It is a little more complicated with solid fuel devices, they do not regulate the heating of the liquid, and can easily turn it into steam. And it is impossible to reduce the heat from coal or wood by turning the knob in such a situation. In this case, the control of heating of the coolant is rather arbitrary with high errors and is performed by rotary thermostats and mechanical dampers.

  Electric boilers allow you to smoothly regulate the heating of the coolant from 30 to 90 ° C. They are equipped with an excellent overheating protection system.

  One-pipe and two-pipe lines

  The design features of a one-pipe and two-pipe heating network determine different norms for heating the coolant.

  For example, for a single-pipe line, the maximum rate is 105 ° С, and for a two-pipe line - 95 ° С, while the difference between the return and supply should be respectively: 105 - 70 ° С and 95 - 70 ° С.

  Coordination of the temperature of the heating medium and the boiler

  

  Regulators help to coordinate the temperature of the coolant and the boiler. These are devices that create automatic control and correction of the return and flow temperature.

  The return temperature is dependent on the amount of fluid passed through it. The regulators cover the liquid supply and increase the difference between the return and the supply to the level that is needed, and the necessary indicators are installed on the sensor.

  If it is necessary to increase the flow, then a boost pump can be added to the network, which is controlled by the regulator. To reduce the heating of the supply, a "cold start" is used: that part of the liquid that passed through the network is again sent from the return to the inlet.

  The regulator redistributes the flow and return flows according to the data taken by the sensor, and ensures strict temperature standards for the heating network.

  Ways to reduce heat loss

  

  The above information will help to be used to correctly calculate the temperature of the coolant and will tell you how to determine the situations when you need to use the regulator.

  But it is important to remember that the temperature in the room is influenced not only by the temperature of the coolant, outside air and the strength of the wind. The degree of insulation of the facade, doors and windows in the house should also be taken into account.

  To reduce the heat loss of housing, you need to worry about its maximum thermal insulation. Insulated walls, sealed doors, metal-plastic windows will help reduce heat leakage. It also reduces heating costs.

  Norms and optimal values ​​of the temperature of the coolant, Repair and construction of a house

  
  After installing the heating system, it is necessary to set the temperature mode. This procedure must be carried out in accordance with existing standards. Norms

Heat carrier for heating systems, heat carrier temperature, norms and parameters

In Russia, such heating systems are more popular, which work thanks to liquid-type heat carriers. This is most likely due to the fact that in many regions of the country the climate is rather harsh. Liquid heating systems are a set of equipment that includes such components as: pumping stations, boiler houses, pipelines, heat exchangers. The characteristics of the coolant greatly depend on how efficiently and properly the entire system will work. Now the question arises, what kind of coolant for heating systems to use for work.

Heating medium for heating systems

Coolant requirements

You need to immediately understand that there is no ideal coolant. Those types of coolants that exist today can perform their functions only in a certain temperature range. If you go beyond this range, then the characteristics of the quality of the coolant can change dramatically.

The heating medium for heating must have such properties that will allow for a certain unit of time to transfer as much as possible large quantity heat. The viscosity of the coolant largely determines what effect it will have on the pumping of the coolant throughout the heating system for a specific time interval. The higher the viscosity of the coolant, the more good characteristics he possesses.

Physical properties of coolants

The coolant should not have a corrosive effect on the material from which pipes or heating devices are made.

If this condition is not met, then the choice of materials will become more limited. In addition to the above properties, the coolant must also have lubricating properties. The choice of materials that are used for the construction of various mechanisms and circulation pumps depends on these characteristics.

In addition, the coolant must be safe based on such characteristics as: ignition temperature, release of toxic substances, flash of vapors. Also, the coolant should not be too expensive, studying the reviews, you can understand that even if the system works efficiently, it will not justify itself from a financial point of view.

Water as a heat carrier

Water can serve as a heat transfer fluid required for the operation of the heating system. Of those liquids that exist on our planet in their natural state, water has the highest heat capacity - about 1 kcal. In simpler words, if 1 liter of water is heated to such a temperature of the heating system coolant as +90 degrees, and the water is cooled to 70 degrees by means of a heating radiator, then the room that is heated by means of this radiator will receive about 20 kcal of heat.

Water also has a fairly high density - 917kg / 1 sq. meter. The density of water can change when it is heated or cooled. Only water has properties such as expansion when heated or cooled.

Water is the most demanded and affordable heat carrier

Also, water surpasses many synthetic heat transfer fluids in terms of toxicological and environmental friendliness. If suddenly, somehow, such a coolant leaks from the heating system, then this will not create any situations that will cause health problems for the residents of the house. You only need to be afraid of hot water getting directly on human body... Even if a coolant leak occurs, the volume of the coolant in the heating system can very easily be restored. All that needs to be done is to add the correct amount of water through the expansion tank of the natural circulation heating system. Judging by the price category, it is simply impossible to find a coolant that will cost less than water.

Despite the fact that such a coolant as water has many advantages, it also has some disadvantages.

In its natural state, water contains various salts and oxygen, which can adversely affect internal state components and parts of the heating system. Salt can have a corrosive effect on materials, as well as lead to scale overgrowing of the inner walls of pipes and elements of the heating system.

The chemical composition of water in different regions of Russia

This disadvantage can be eliminated. The easiest way to soften water is to boil it. When boiling water, care must be taken that such a thermal process takes place in a metal container, and that the container is not covered with a lid. After such heat treatment, a significant part of the salts will settle to the bottom of the tank, and carbon dioxide will be completely removed from the water.

A larger amount of salt can be removed by using a container with a large bottom for boiling. Salt deposits can be easily seen on the bottom of the vessel and will look like limescale. This method of removing salts is not 100% effective, since only less stable calcium and magnesium bicarbonates are removed from the water, but more stable compounds of such elements remain in the water.

There is another way to remove salts from water - this is a reagent or chemical method... Through this method, it is possible to transfer salts that are contained in water even in an insoluble state.

To carry out such a water treatment, the following components will be required: slaked lime, soda ash, or sodium orthophosphate. If you fill the heating system with a coolant and add the first two of the listed reagents to the water, this will cause the formation of a precipitate from calcium and magnesium orthophosphates. And if the third of the listed reagents is added to the water, then a carbonate precipitate is formed. After chemical reaction is completely completed, the sediment can be eliminated through a method such as water filtration. Sodium orthophosphate is a reagent that will help soften water. An important point, which must be taken into account when choosing this reagent, is the correct flow rate of the coolant in the heating system for a certain volume of water.

Installation for chemical water softening

It is best to use distilled water for heating systems, since it does not contain harmful impurities. True, distilled water is more expensive than ordinary water. One liter of distilled water will cost about 14 Russian rubles. Before filling the heating system with a distilled type of coolant, it is necessary to thoroughly rinse all heating devices, boiler and pipes with plain water. Even if the heating system was not so long ago installed and has not yet been used before, then its components still need to be flushed, since there will be contamination in any case.

In order to flush the system, you can also use melt water, since such water contains almost no salts in its composition. Even artesian or well water contains more salts than melt or rainwater.

The water in the heating system is frozen

Studying the parameters of the heating system coolant, it can be noted that another big drawback of water as a heating system coolant is that it will freeze if the water temperature drops below 0 degrees. When water freezes, it expands, and this will cause damage to heating devices or damage pipes. Such a threat can arise only if there are interruptions in the heating system and the water stops heating. Still, this type of coolant is not recommended for use in those houses where residence is not permanent, but periodic.

Antifreeze as a coolant

Antifreeze for heating systems

Higher characteristics for the efficient operation of the heating system are possessed by such a type of coolant as antifreeze. Pouring antifreeze into the heating system circuit, you can reduce the risk of freezing of the heating system in the cold season to a minimum. Antifreeze is designed for lower temperatures than water, and they are not able to change its physical state. Antifreeze has many advantages, since it does not cause scale deposits and does not contribute to corrosive wear of the interior of the heating system elements.

Even if antifreeze solidifies at very low temperatures, it will not expand like water, and this will not entail any damage to the components of the heating system. In case of freezing, the antifreeze will turn into a gel-like composition, and the volume will remain the same. If, after freezing, the temperature of the coolant in the heating system rises, it will change from a gel-like state to a liquid one, and this will not cause any negative consequences for the heating circuit.

Many manufacturers add various additives to antifreeze that can increase the operating life of the heating system.

Such additives help to remove various deposits and scale from the elements of the heating system, as well as eliminate foci of corrosion. When choosing antifreeze, you need to remember that such a coolant is not universal. The additives it contains are suitable only for certain materials.

Existing coolants for heating systems, antifreeze can be divided into two categories based on their freezing point. Some are designed for temperatures up to -6 degrees, and others up to -35 degrees.

Properties different types antifreeze

The composition of such a coolant as antifreeze is designed for a full five years of operation, or for 10 heating seasons. The calculation of the coolant in the heating system must be accurate.

Antifreeze also has its disadvantages:

• The heat capacity of antifreeze is 15% lower than that of water, which means that they will give off heat more slowly;
• They have a fairly high viscosity, which means that a sufficiently powerful circulation pump will need to be installed in the system.
• When heated, antifreeze increases in volume more than water, which means that the heating system must include a closed-type expansion tank, and radiators must have a larger capacity than those used to organize a heating system in which water is the coolant.
• The speed of the coolant in the heating system - that is, the fluidity of the antifreeze is 50% higher than that of water, which means that all the connecting connectors of the heating system must be very carefully sealed.
• Antifreeze, which includes ethylene glycol, is toxic to humans, therefore it can only be used for single-circuit boilers.

In the case of using this type of coolant in the heating system, such as antifreeze, certain conditions must be taken into account:

• The system must be supplemented with a circulation pump with powerful parameters. If the circulation of the heating medium in the heating system and the heating circuit is long, then the circulation pump must be installed outdoors.
• The volume of the expansion tank should be at least twice as compared to the tank, which is used for a coolant such as water.
• It is necessary to install volumetric radiators and pipes with a large diameter in the heating system.
• Do not use automatic type air vents. For a heating system in which the coolant is antifreeze, only manual valves can be used. The more popular hand-held crane is the Mayevsky crane.
• If antifreeze is diluted, then only with distilled water. Melt, rain, or well water will not work.
• Before filling the heating system with antifreeze coolant, it must be rinsed well with water, not forgetting about the boiler. Antifreeze manufacturers recommend changing them in the heating system at least once every three years.
• If the boiler is cold, then it is not recommended to immediately set high standards for the temperature of the coolant in the heating system. It should rise in a gradual manner, the coolant needs some time to heat up.

If in winter a double-circuit boiler running on antifreeze is turned off for a long period, then it is necessary to drain the water from the hot water supply circuit. If it freezes, the water can expand and damage pipes or other elements of the heating system.

Heat carrier for heating systems, heat carrier temperature, norms and parameters

In Russia, such heating systems are more popular, which work thanks to liquid-type heat carriers. This is most likely due to the fact that in many regions of the country the climate is rather harsh. Liquid heating systems are a set of equipment that includes such

The standard for the temperature of the coolant in the heating system

Ensuring comfortable living conditions in the cold season is the task of heat supply. It is interesting to trace how a man tried to warm his home. Initially, the huts were heated in black, the smoke went into the hole on the roof.

Later they switched to stove heating, then, with the advent of boilers, to water heating. Boiler plants increased their capacity: from a boiler house in one rented house to a district boiler house. And finally, with the increase in the number of consumers with the growth of cities, people have come to district heating from thermal power plants.

Depending on the source of heat energy, a distinction is made between centralized and decentralized heat supply systems. The first type includes heat production based on combined production of electricity and heat at thermal power plants and heat supply from district heating boilers.

Decentralized heat supply systems include small-capacity boiler plants and individual boilers.

By the type of coolant, heating systems are divided into steam and aquatic.

Advantages of water heating systems:

• the possibility of transporting the coolant over long distances;
• the possibility of centralized regulation of heat supply in the heating network by changing the hydraulic or temperature regime;
• absence of steam and condensate losses, which always occur in steam systems.

Formula for calculating heat supply

The temperature of the heating medium, depending on the outside temperature, is maintained by the heat supply organization on the basis of the temperature schedule.

The temperature schedule for supplying heat to the heating system is based on monitoring air temperatures during the heating period. At the same time, they choose the eight coldest winters in fifty years. It takes into account the strength and speed of the wind in different geographic areas. The required heat loads are calculated to heat the room up to 20-22 degrees. For industrial premises, their own parameters of the coolant have been set to maintain technological processes.

The heat balance equation is drawn up. The heat loads of consumers are calculated taking into account heat losses to the environment, the corresponding heat supply is calculated to cover the total heat loads. The colder it is outside, the higher the losses to the environment, the more heat is released from the boiler house.

Heat release is calculated by the formula:

Q = Gw * C * (tpr-tob), where

• Q is the heat load in kW, the amount of heat released per unit of time;
• Gw is the coolant flow rate in kg / sec;
• tпр and tоb - temperatures in the direct and return pipelines depending on the outside air temperature;
• С - heat capacity of water in kJ / (kg * deg).

Parameter control methods

Three methods of heat load regulation are applied:

With the quantitative method, the regulation of the heat load is carried out by changing the amount of the supplied heat carrier. With the help of pumps of the heating system, the pressure in the pipelines increases, the heat release increases with an increase in the flow rate of the coolant.

The qualitative method consists in increasing the parameters of the coolant at the outlet of the boilers while maintaining the flow rate. This method is most often used in practice.

With the quantitative and qualitative method, the parameters and flow rate of the coolant are changed.

Factors affecting the heating of the room during the heating period:

Heat supply systems are divided, depending on the design, into one-pipe and two-pipe. For each design, its own heat schedule in the supply pipeline is approved. For single pipe system heating, the maximum temperature in the supply line is 105 degrees, in the two-pipe line - 95 degrees. The difference between the supply and return temperatures in the first case is regulated in the range of 105-70, for a two-pipe - in the range of 95-70 degrees.

Choosing a heating system for a private house

The principle of operation of a one-pipe heating system is to supply the coolant to the upper floors, all radiators are connected to the descending pipeline. It is clear that it will be warmer on the upper floors than on the lower ones. Since a private house at best has two or three floors, there is no threat of contrast in the heating of the premises. And in a one-story building, there will generally be uniform heating.

What are the advantages of such a heat supply system:

Disadvantages of the design are high hydraulic resistance, the need to turn off the heating of the entire house during repairs, the limitation in connecting heating devices, the impossibility of regulating the temperature in a single room, and high heat losses.

For improvement, it was suggested to use a bypass system.

Bypass- a section of pipe between the supply and return pipelines, a bypass path in addition to the radiator. They are equipped with valves or taps and allow you to adjust the temperature in the room or completely disconnect a single battery.

One-pipe heating system can be vertical or horizontal. In both cases, air locks appear in the system. At the entrance to the system, a high temperature is maintained to warm up all the rooms, so the piping system must withstand high water pressure.

Two-pipe heating system

The principle of operation is to connect each heating device to the supply and return pipelines. The cooled heat carrier is directed through the return pipeline to the boiler.

During installation, additional investments will be required, but there will be no air locks in the system.

Temperature standards for premises

In a residential building, the temperature in the corner rooms should not be lower than 20 degrees, for indoor spaces the standard is 18 degrees, for showers - 25 degrees. When the outside temperature drops to -30 degrees, the standard rises to 20-22 degrees, respectively.

Their own standards are established for the premises where children are. The main range is 18 to 23 degrees. Moreover, for premises for different purposes, the indicator varies.

At school, the temperature should not fall below 21 degrees, for bedrooms in boarding schools it is allowed not lower than 16 degrees, in the pool - 30 degrees, on the verandas of kindergartens intended for walking - not lower than 12 degrees, for libraries - 18 degrees, in cultural mass institutions, the temperature is 16-21 degrees.

When developing standards for different rooms, it is taken into account how much time a person spends in motion, so the temperature for gyms will be lower than in classrooms.

Approved building codes and regulations of the Russian Federation SNiP 41-01-2003 "Heating, ventilation and air conditioning", regulating the air temperature, depending on the purpose, number of storeys, the height of the premises. For apartment building the maximum temperature of the coolant in the battery for a one-pipe system is 105 degrees, for a two-pipe system 95 degrees.

In the heating system of a private house

The optimum temperature in an individual heating system is 80 degrees. It is necessary to ensure that the level of the coolant does not drop below 70 degrees. With gas boilers, it is easier to regulate the thermal regime. Boilers work in a completely different way. solid fuel... In this case, the water can very easily turn into steam.

Electric boilers allow you to easily adjust the temperature in the range from 30-90 degrees.

Possible interruptions in heat supply

1. If the air temperature in the room is 12 degrees, it is allowed to turn off the heat for 24 hours.
2. In the temperature range from 10 to 12 degrees, the heat is switched off for a maximum of 8 hours.
3. When the room is heated below 8 degrees, it is not allowed to turn off the heating for more than 4 hours.

Regulation of the temperature of the coolant in the heating system: methods, dependency factors, norms of indicators

Classification and advantages of heat transfer fluids. What determines the temperature in the heating network. Which heating system to choose for an individual building. Water temperature standards in the heating network.

The supply of heat to the room is associated with the simplest temperature schedule. The temperature values ​​of the water supplied from the boiler room do not change in the room. They have standard values ​​and range from + 70 ° C to + 95 ° C. Such a temperature schedule for the heating system is the most demanded.

Adjusting the air temperature in the house

Centralized heating is not available everywhere in the country, so many residents install independent systems... Their temperature schedule is different from the first option. In this case, the temperature readings are significantly reduced. They depend on the efficiency of modern heating boilers.

If the temperature reaches + 35 ° C, then the boiler will operate at maximum power. It depends on the heating element where thermal energy can be sucked in by flue gases. If the temperature values ​​are greater than + 70 ºС, then the boiler performance decreases. In this case, its technical characteristics indicate an efficiency of 100%.

Temperature schedule and its calculation

How the graph will look depends on the outside temperature. The more negative the outside temperature, the more heat loss. Many do not know where to get this indicator from. This temperature is prescribed in regulatory documents. The temperatures of the coldest five-day week are taken as the calculated value, and the lowest value in the last 50 years is taken.

Outside and inside temperature graph

The graph shows the dependence of the outside and inside temperature. Let's say the outside air temperature is -17 ° C. Drawing a line up to the intersection with t2, we get a point characterizing the water temperature in the heating system.

Thanks to the temperature schedule, the heating system can be prepared even for the most severe conditions. It also reduces material costs for installing a heating system. Considering this factor from the point of view of mass construction, the savings are significant.

• Outside air temperature. The smaller it is, the more negatively it affects heating;
• Wind. When a strong wind occurs, heat loss increases;
• The indoor temperature depends on the thermal insulation of the building's structural elements.

Over the past 5 years, the principles of construction have changed. Builders add value to a home by insulating elements. As a rule, this applies to basements, roofs, foundations. These expensive measures subsequently allow residents to save on the heating system.

Heating temperature graph

The graph shows the dependence of the outdoor and indoor temperature. The lower the outdoor temperature, the higher the temperature of the heating medium in the system.

The temperature schedule is developed for each city during the heating season. In small settlements, a boiler room temperature schedule is drawn up, which provides required amount coolant to the consumer.

• quantitative - characterized by a change in the flow rate of the coolant supplied to the heating system;
• high-quality - it consists in regulating the temperature of the coolant before supplying it to the premises;
• temporary - a discrete method of supplying water to the system.

The temperature graph is a heating pipe graph that distributes the heating load and is controlled by centralized systems. There is also an increased schedule, it is created for a closed heating system, that is, to ensure the supply of hot coolant to the connected objects. When using an open system, it is necessary to adjust the temperature schedule, since the coolant is consumed not only for heating, but also for household water consumption.

The temperature graph is calculated using a simple method. Hto build it, are necessary initial temperature air data:

• outdoor;
• in room;
• in the supply and return pipelines;
• at the exit from the building.

In addition, the rated thermal load should be known. All other coefficients are standardized by reference documentation. The system is calculated for any temperature schedule, depending on the purpose of the room. For example, for large industrial and civil objects, a schedule of 150/70, 130/70, 115/70 is drawn up. For residential buildings, this figure is 105/70 and 95/70. The first indicator shows the supply temperature, and the second shows the return temperature. The calculation results are entered into a special table, which shows the temperature at certain points of the heating system, depending on the outside air temperature.

The main factor in calculating the temperature graph is the outside air temperature. The calculation table should be drawn up so that the maximum values ​​of the temperature of the coolant in the heating system (schedule 95/70) provide heating of the room. Indoor temperatures are stipulated by regulations.

Temperature heating appliances

The main indicator is the temperature of the heating devices. The ideal temperature schedule for heating is 90/70 ° C. It is impossible to achieve such an indicator, since the temperature inside the room should not be the same. It is determined depending on the purpose of the room.

In accordance with the standards, the temperature in the corner living room is + 20 ° C, in the rest - + 18 ° C; in the bathroom - + 25 ° C. If the outside air temperature is -30 ° C, then the indicators increase by 2 ° C.

• in rooms where children are - + 18 ° C to + 23 ° C;
• children's educational institutions - + 21 ° C;
• in cultural institutions with mass attendance - + 16 ° C to + 21 ° C.

This temperature range is compiled for all types of rooms. It depends on the movements performed inside the room: the more there are, the lower the air temperature. For example, in sports facilities, people move a lot, so the temperature is only + 18 ° C.

Indoor air temperature

• Outside air temperature;
• Type of heating system and temperature difference: for one-pipe system - + 105 ° C, and for one-pipe system - + 95 ° C. Accordingly, the differences in for the first area are 105/70 ° C, and for the second - 95/70 ° C;
• The direction of supply of the coolant to the heating devices. At the top supply the difference should be 2 ºС, at the lower one - 3 ºС;
• Type of heating devices: heat transfer is different, therefore the temperature schedule will differ.

First of all, the temperature of the coolant depends on the outside air. For example, outside the temperature is 0 ° C. In this case, the temperature regime in the radiators should be equal to 40-45 ° С on the supply, and 38 ° С on the return line. At air temperatures below zero, for example, -20 ° C, these indicators change. In this case, the flow temperature becomes 77/55 ° C. If the temperature indicator reaches -40 ° C, then the indicators become standard, that is, on the supply + 95/105 ° C, and on the return - + 70 ° C.

Additional options

In order for a certain temperature of the coolant to reach the consumer, it is necessary to monitor the state of the outside air. For example, if it is -40 ° C, the boiler room must supply hot water with an indicator of + 130 ° C. Along the way, the coolant loses heat, but still the temperature remains high when it enters the apartments. The optimum value is + 95 ° C. To do this, an elevator unit is mounted in the basements, which serves to mix hot water from the boiler room and the coolant from the return pipeline.

Several institutions are responsible for the heating main. The boiler house monitors the supply of hot coolant to the heating system, and the state of the pipelines is monitored by city heating networks. The housing office is responsible for the elevator element. Therefore, in order to solve the problem of supplying a coolant to a new house, it is necessary to contact different offices.

Installation of heating devices is carried out in accordance with regulatory documents. If the owner himself replaces the battery, then he is responsible for the functioning of the heating system and changing the temperature regime.

Adjustment methods

If the boiler room is responsible for the parameters of the coolant leaving the warm point, then the employees of the housing office should be responsible for the temperature inside the room. Many tenants complain about the coldness in their apartments. This is due to the deviation of the temperature graph. In rare cases, it happens that the temperature rises by a certain value.

Heating parameters can be adjusted in three ways:

• Reaming the nozzle.

If the temperature of the coolant at the supply and return is significantly underestimated, then it is necessary to increase the diameter of the elevator nozzle. Thus, more liquid will pass through it.

How can this be done? To begin with, shut-off valves are closed (house valves and taps on the elevator unit). Next, the elevator and nozzle are removed. Then it is reamed by 0.5-2 mm, depending on how much it is necessary to increase the temperature of the coolant. After these procedures, the elevator is mounted in its original place and put into operation.

To ensure sufficient tightness flange connection, it is necessary to replace the paronite gaskets with rubber ones.

• Suction suppression.

In extreme cold, when the problem of freezing of the heating system in the apartment arises, the nozzle can be completely removed. In this case, the suction can become a jumper. To do this, it is necessary to drown it with a steel pancake, 1 mm thick. Such a process is carried out only in critical situations, since the temperature in pipelines and heating devices will reach 130 ° C.

In the middle of the heating season, a significant rise in temperature can occur. Therefore, it is necessary to regulate it using a special valve on the elevator. To do this, the supply of hot coolant is switched to the supply line. A pressure gauge is mounted on the return line. The regulation is carried out by closing the valve on the supply pipeline. Next, the valve opens slightly, while the pressure should be monitored using a pressure gauge. If you just open it, then there will be a drawdown of the cheeks. That is, an increase in the pressure drop occurs in the return pipeline. Every day, the indicator increases by 0.2 atmosphere, and the temperature in the heating system must be constantly monitored.

When drawing up a heating temperature schedule, various factors must be taken into account. This list includes not only the structural elements of the building, but the outside temperature, as well as the type of heating system.

Heating temperature graph

Heating temperature schedule The supply of heat to the room is related to the simplest temperature schedule. The temperature values ​​of the water supplied from the boiler room do not change in the room. They

The temperature of the coolant in the heating system is normal

Batteries in apartments: accepted temperature standards

Heating batteries today they are the main existing elements of the heating system in city apartments. They are effective household devices responsible for the transfer of heat, since the comfort and coziness in living quarters for citizens directly depends on them and their temperature.

If you refer to Government Decree Russian Federation No. 354 of May 6, 2011, the supply of heating to residential apartments begins when the average daily outdoor air temperature is less than eight degrees, if this mark is invariably held for five days. In this case, the start of heat begins on the sixth day after the decrease in the air index was recorded. For all other cases, the law allows postponing the supply of the heat resource. In general, in almost all regions of the country, the actual heating season directly and officially begins in mid-October and ends in April.

In practice, it also happens that due to the negligent attitude of heat supply companies, the measured temperature of the installed batteries in the apartment does not correspond to the regulated standards. However, in order to complain and demand correction of the situation, you need to know what standards are in force in Russia and how to correctly measure the existing temperature of working radiators.

Norms in Russia

Considering the main indicators, the official temperatures of the heating batteries in the apartment are shown below. They are applicable for absolutely all operating systems in which, in direct accordance with the decree of the Federal Agency for Construction and Housing and Communal Services No. 170 of September 27, 2003, the coolant (water) is supplied from the bottom up.

In addition, it is necessary to take into account the fact that the temperature of the water that circulates in the radiator directly at the entrance to the functioning heating system must correspond to the current schedules regulated by the utility network for a particular room. These schedules are regulated by the Sanitary Norms and Rules in the sections of heating, air conditioning and ventilation (41-01-2003). Here, in particular, it is indicated that with a two-pipe heating system, the maximum temperature indicators are equal to ninety-five degrees, and with a one-pipe heating system - one hundred and five degrees. These measurements must be carried out sequentially in accordance with the established rules, otherwise, when contacting higher authorities, the indications will not be taken into account.

Maintained temperature

The temperature of heating batteries in residential apartments in centralized heating is determined according to the relevant standards, displaying a sufficient value for premises, depending on their intended purpose. In this area, the standards are simpler than in the case of work premises, since the activity of residents, in principle, is not so high and more or less stable. Based on this, the following norms are regulated:

Of course, the individual characteristics of each person should be taken into account, everyone has different activity and preferences, therefore there is a difference in the norms from and to, and not one single indicator is fixed.

Heating system requirements

Heating in apartment buildings is based on many engineering calculations that are not always very successful. The process is complicated by the fact that it is not about delivering hot water to a specific property, but about evenly distributing water across all available apartments, taking into account all norms and necessary indicators, including optimal humidity. The effectiveness of such a system depends on how well coordinated the actions of its elements, which also include batteries and pipes in each room. Therefore, it is impossible to replace radiator batteries without taking into account the peculiarities of heating systems - this leads to negative consequences with a heat deficit or, on the contrary, an excess of it.

As for the optimization of heating in apartments, the following provisions apply here:

In any case, if the owner is embarrassed by something, it is worth contacting the management company, housing and communal services, the organization responsible for the supply of heat - depending on what exactly differs from the accepted norms and does not satisfy the applicant.

What to do in case of inconsistencies?

If the operating applied heating systems of an apartment building are functionally adjusted with deviations in the measured temperature only in your premises, you need to check the internal apartment heating systems. First of all, you should make sure that they are not airborne. It is necessary to touch the individual batteries available on the living space in the rooms from top to bottom and in the opposite direction - if the temperature is uneven, then the cause of the imbalance is airing and you need to release the air by turning a separate tap on the radiator batteries. It is important to remember that you cannot open the tap without first placing some container under it, where the water will drain. At first, the water will come out with a hiss, that is, with air, you need to close the tap when it flows without hissing and evenly. Some time later you should check the places on the battery that were cold - they should now be warm.

If the reason is not in the air, you need to submit an application to the management company. In turn, she must, within 24 hours, send a responsible technician to the applicant, who must draw up a written opinion on the inconsistency of the temperature regime and send the team to fix the existing problems.

If the management company did not react to the complaint in any way, you need to make measurements yourself in the presence of neighbors.

How to measure temperature?

Consideration should be given to how to correctly measure the radiator temperature. It is necessary to prepare a special thermometer, open the tap and substitute some container with this thermometer under it. It should be noted right away that a deviation of only four degrees upwards is permissible. If this is problematic, you need to contact the ZhEK, if the batteries are airborne, apply to DEZ. Everything should be fixed within one week.

There are additional ways to measure the temperature of radiators, namely:

• Measure the temperature of the pipes or surfaces of the battery with a thermometer, adding one or two degrees Celsius to the readings obtained in this way;
• For accuracy, it is desirable to use infrared thermometers-pyrometers, their error is less than 0.5 degrees;
• Alcohol thermometers are also taken, which are applied to the place selected on the radiator, fixed on it with tape, wrapped in heat-insulating materials and used as permanent measuring instruments;
• In the presence of an electrical special measuring device of some kind, wires with a thermocouple are attached to the batteries.

If the temperature is unsatisfactory, a complaint must be filed.

Minimum and maximum rates

Like other indicators that are important to ensure the required living conditions for people (indicators of humidity in apartments, warm water supply temperature, air, etc.), the temperature of the heating batteries actually has certain permissible minima depending on the season. However, neither the law nor the established regulations prescribe any minimum standards for apartment batteries. Based on this, it can be noted that the indicators should be maintained such that the above permissible temperatures in the premises are normally maintained. Of course, if the temperature of the water in the batteries is not high enough, it will actually be impossible to provide the optimum required temperature in the apartment.

If there is no minimum established, then the maximum indicator Sanitary norms and rules, in particular 41-01-2003, are established. This document defines the standards that are required for intra-apartment heating system... As mentioned earlier, for two-pipe it is a mark of ninety-five degrees, and for one-pipe it is one hundred and fifteen degrees Celsius. Nevertheless, the recommended temperatures are from eighty-five degrees to ninety, because at a hundred degrees the water boils.

Our articles tell about typical ways of solving legal issues, but each case is unique. If you want to know how to solve your particular problem, please contact the online consultant form.

What should be the temperature of the coolant in the heating system

The temperature of the coolant in the heating system is maintained in such a way that in apartments it remains within 20-22 degrees, as the most comfortable for a person. Since its fluctuations depend on the air temperature outside, experts develop schedules with the help of which it is possible to keep the room warm in winter.

What determines the temperature in living quarters

The lower the temperature, the more the heat carrier loses heat. The calculation takes into account the indicators of the 5 coldest days of the year. The 8 coldest winters in the last 50 years are taken into account. One of the reasons for using such a schedule over the years is the constant readiness of the heating system to extremely low temperatures.

Another reason lies in the field of finance, such a preliminary calculation allows you to save on the installation of heating systems. If we consider this aspect on the scale of a city or district, then the saving rate will be impressive.

We list all the factors that affect the temperature inside the apartment:

1. Outside temperature, direct relationship.
2. Wind speed. Heat loss, for example, through front door, increase with increasing wind speed.
3. The condition of the house, its tightness. This factor is significantly influenced by the use of heat-insulating materials in the construction, insulation of the roof, basements, windows.
4. The number of people indoors, the intensity of their movement.

All of these factors vary greatly depending on where you live. Both the average temperature over recent years in winter and the wind speed depend on where your home is. For example, in central Russia there is always a stable frosty winter. Therefore, people are often concerned not so much with the temperature of the coolant as with the quality of construction.

Increasing the cost of building residential real estate, construction companies are taking measures and insulating houses. Still, the temperature of the radiators is just as important. It depends on the temperature of the coolant, which fluctuates at different times, in different climatic conditions.

All requirements for the temperature of the coolant are set out in building codes and regulations. When designing and commissioning engineering systems, these standards must be observed. For calculations, the temperature of the coolant at the outlet of the boiler is taken as a basis.

Indoor temperature standards are different. For example:

• in an apartment the average is 20-22 degrees;
• in the bathroom, it should be 25o;
• in the living room - 18o

In public non-residential premises, the temperature standards are also different: at school - 21o, in libraries and gyms - 18o, swimming pool 30o, in industrial premises the temperature is set at about 16oC.

The more people gather indoors, the lower the temperature is initially set. In individual residential buildings, the owners decide for themselves what temperature to set.

In order to set the desired temperature, it is important to consider the following factors:

1. The presence of a one-pipe or two-pipe system. For the first, the norm is 105оС, for 2 pipes - 95оС.
2. In supply and discharge systems, it should not exceed: 70-105оС for a one-pipe system and 70-95оС.
3. Water inflow in a certain direction: when wiring from above, the difference will be 20оС, from below - 30оС.
4. Types of applied heater... They are divided by the method of heat transfer (radiation devices, convective and convective-radiation devices), by the material used in their manufacture (metal, non-metallic devices, combined), as well as by the magnitude of thermal inertia (small and large).

By combining the various properties of the system, the type of heater, the direction of the water supply, and more, you can achieve optimal results.

Heating regulators

The device with which the temperature schedule is monitored and the desired parameters are adjusted is called a heating controller. The regulator controls the temperature of the heating medium automatically.

Pros of using these devices:

• maintaining a given temperature schedule;
• by controlling the overheating of the water, additional savings in heat consumption are created;
• setting the most effective parameters;
• all subscribers are provided with the same conditions.

Sometimes the heating regulator is mounted so that it is connected to the same computing node with a hot water supply regulator.

These modern methods make the system work more efficiently. Even at the stage of the problem, correction follows. Of course, it is cheaper and easiest to monitor the heating of a private house, but the automation currently used is able to prevent many problems.

Heat carrier temperature in different heating systems

In order to comfortably survive the cold season, you need to worry about creating a high-quality heating system in advance. If you live in a private house, you have an autonomous network, and if in an apartment complex, you have a centralized one. Whatever it is, it is still necessary that the temperature of the batteries during the heating season be within the standards established by SNiP. Let us analyze in this article the temperature of the coolant for different systems heating.

The heating season begins when the average temperature outside per day drops below + 8 ° C on the street and stops, respectively, when it rises above this mark, but at the same time it also lasts up to 5 days.

Standards. What temperature should be in the rooms (minimum):

• In a residential area + 18 ° C;
• In the corner room + 20 ° C;
• In the kitchen + 18 ° C;
• In the bathroom + 25 ° C;
• In corridors and stairwells + 16 ° C;
• In the elevator + 5 ° C;
• In the basement + 4 ° C;
• In the attic + 4 ° C.

It should be noted that these temperature standards refer to the heating season and do not apply to the rest of the time. Also, information that hot water should be from + 50 ° C to + 70 ° C will be useful, according to SNiP-u 2.08.01.89 "Residential buildings".

There are several types of heating systems:

Natural circulation

The coolant circulates without interruption. This is due to the fact that the change in temperature and density of the coolant occurs continuously. Because of this, heat is distributed evenly over all elements of the natural circulation heating system.

The circulating water pressure directly depends on the temperature difference between hot and cooled water. Typically, in the first heating system, the coolant temperature is 95 ° C, and in the second 70 ° C.

Forced circulation

Such a system is divided into two types:

The difference between them is quite large. The piping layout, their number, sets of shut-off, control and control valves are different.

According to SNiP 41-01-2003 ("Heating, ventilation and air conditioning"), the maximum temperature of the coolant in these heating systems is:

• two-pipe heating system - up to 95 ° С;
• one-pipe - up to 115 ° С;

The optimum temperature is from 85 ° C to 90 ° C (due to the fact that at 100 ° C, the water already boils. When this value is reached, you have to use special measures to stop boiling).

The dimensions of the heat given off by the radiator depend on the installation location and the method of connecting the pipes. Heat output can be reduced by up to 32% due to poor piping arrangement.

The best option is diagonal connection, when hot water comes from above, and the return flow is from the bottom of the opposite side. Thus, the radiators are checked for tests.

The most unfortunate thing is when hot water comes from below, and cold water from above along the same side.

Calculation of the optimal temperature for the heater

The most important thing is that the most comfortable temperature for human existence is + 37 ° C.

• where S is the area of ​​the room;
• h is the height of the room;
• 41 - minimum capacity per 1 cubic meter S;
• 42 - nominal thermal conductivity of one section according to the passport.

Please note that a radiator placed under a window in a deep niche will give almost 10% less heat. Decorative box will take 15-20%.

When you use a radiator to maintain the required room temperature, you have two options: you can use small radiators and increase the water temperature in them (high temperature heating), or you can install a large radiator, but the surface temperature will not be as high (low temperature heating) ...

With high temperature heating, the radiators are very hot and can get burned if you touch them. In addition, at a high temperature of the radiator, the decomposition of the dust that has settled on it, which will then be inhaled by people, can begin.

When using low-temperature heating, the appliances are slightly warm, but the room is still warm. In addition, this method is more economical and safer.

Cast iron radiators

The average heat output from a separate section of a radiator made of this material is from 130 to 170 W, due to the thick walls and the large mass of the device. Therefore, it takes a long time to warm up the room. Although there is a reverse plus in this - a large inertia ensures a long retention of heat in the radiator after the boiler is turned off.

The coolant temperature in it is 85-90 ° C

Aluminum radiators

This material is lightweight, easy to heat up and with good heat transfer from 170 to 210 watts / section. However, it is negatively affected by other metals and may not be installed in every system.

The operating temperature of the coolant in the heating system with this radiator is 70 ° C

Steel radiators

The material has an even lower thermal conductivity. But by increasing the surface area with partitions and ribs, it still heats well. Heat output from 270 W - 6.7 kW. However, this is the power of the entire radiator, and not of its individual segment. The final temperature depends on the dimensions of the heater and the number of fins and plates in its design.

The operating temperature of the coolant in the heating system with this radiator is also 70 ° C

So which one is better?

Probably, it will be more profitable to install equipment with a combination of properties of an aluminum and steel battery - bimetal radiator... It will cost you more, but it will also last longer.

The advantage of such devices is obvious: if aluminum can withstand the temperature of the coolant in the heating system only up to 110 ° C, then bimetal is up to 130 ° C.

On the contrary, heat dissipation is worse than that of aluminum, but better than that of other radiators: from 150 to 190 W.

Warm floor

Another way to create a comfortable temperature environment in the room. What are its advantages and disadvantages over conventional radiators?

From the school physics course, we know about the phenomenon of convection. Cold air tends downward, and when it heats up, it rises up. Therefore, by the way, my feet are freezing. The warm floor changes everything - the air heated below is forced to rise up.

Such a coating has a large heat transfer (depending on the area of ​​the heating element).

The floor temperature is also spelled out in SNiP-e ("Building norms and rules").

In a house for permanent residence, it should not be more than + 26 ° С.

In rooms for temporary stay of people up to + 31 ° С.

Institutions where classes with children are held, the temperature should not exceed + 24 ° C.

The operating temperature of the coolant in the underfloor heating system is 45-50 ° C. Surface temperature on average 26-28 ° С

How to regulate heating batteries and what should be the temperature in an apartment according to SNiP and SanPiN

To feel comfortable in an apartment or in your own house in winter period a reliable, compliant heating system is needed. In a multi-storey building, this is, as a rule, a centralized network, in a private household - autonomous heating. For the end user, the main element of any heating system is the battery. Coziness and comfort in the house depends on the warmth coming from it. The temperature of the heating batteries in the apartment, its rate is regulated by legislative documents.

Radiator heating rates

If the house or apartment has autonomous heating, the regulation of the temperature of the heating batteries and the maintenance of the thermal regime rests with the homeowner. In a multi-storey building with centralized heating, an authorized organization is responsible for compliance. Heating standards are developed on the basis of sanitary standards for residential and non-residential premises. The calculation is based on the need of an ordinary organism. Optimal values ​​are established by law and are reflected in SNiP.

Warmth and comfort in the apartment will be only when the heat supply standards provided for by law are observed

When is the heat connected and what are the regulations

The beginning of the heating season in Russia falls on the time when the thermometer readings drop below + 8 ° C. The heating is turned off when the mercury column rises to + 8 ° C and above, and remains at this level for 5 days.

To determine if the temperature of the batteries meets the standards, it is necessary to take measurements

Minimum temperature standards

In accordance with the norms of heat supply, minimum temperature should be like this:

• living rooms: + 18 ° C;
• corner rooms: + 20 ° C;
• bathrooms: + 25 ° C;
• kitchens: + 18 ° C;
• staircases and lobbies: + 16 ° C;
• basements: + 4 ° C;
• attics: + 4 ° C;
• lifts: + 5 ° C.

This value is measured indoors at a distance of one meter from the outer wall and 1.5 m from the floor. With hourly deviations from the established standards, the heating fee is reduced by 0.15%. The water must be heated to + 50 ° C - + 70 ° C. Its temperature is measured with a thermometer, lowering it to a special mark in a container with tap water.

Norms according to SanPiN 2.1.2.1002-00

Norms according to SNiP 2.08.01-89

It's cold in the apartment: what to do and where to go

If the radiators do not heat well, the water temperature in the tap will be lower than normal. In this case, residents have the right to write a statement asking for verification. Representatives of the communal service inspect the water supply and heating systems, draw up an act. The second copy is given to the tenants.

If the batteries are not warm enough, you must contact the organization responsible for the heating of the house.

Upon confirmation of the complaint, the authorized organization is obliged to correct everything within a week. The rent is recalculated if the temperature in the room deviates from the permissible norm, as well as when the water in the radiators is lower than the norm by 3 ° C during the daytime, and by 5 ° C at night.

Requirements for the quality of utilities prescribed in the Decree of May 6, 2011 N 354 on the rules for the provision of utilities to owners and users of premises in apartment buildings and residential buildings

Air ratio parameters

The air exchange rate is a parameter that must be observed in heated rooms. In a living room with an area of ​​18 m² or 20 m², the multiplicity should be 3 m³ / h per square meter. m. The same parameters must be observed in regions with temperatures down to -31 ° C and below.

In apartments equipped with two-burner gas and electric stoves and dorm kitchens up to 18 m², aeration is 60 m³ / h. In rooms with a three-burner appliance, this value is 75 m³ / h, with a gas stove with four burners - 90 m³ / h.

In a bathroom of 25 m² this parameter is 25 m³ / h, in a toilet with an area of ​​18 m² - 25 m³ / h. If the bathroom is combined and its area is 25 m², the air exchange rate will be 50 m³ / h.

Methods for measuring heating of radiators

Hot water is supplied to the taps all year round, heated to + 50 ° С - + 70 ° С. Heating devices are filled with this water during the heating season. To measure its temperature, a tap is opened and a container is placed under a stream of water, into which a thermometer is lowered. Deviations are allowed up to four degrees. If the problem exists, file a complaint with the Housing Office. If the radiators are airy, the application must be written in DEZ. A specialist should show up within a week and fix everything.

The presence of a measuring device will allow you to constantly monitor the temperature

Methods for measuring heating of heating batteries:

1. The heating of the pipe and radiator surfaces is measured with a thermometer. 1-2 ° C is added to the result obtained.
2. For the most accurate measurements, an infrared thermometer-pyrometer is used, which determines the readings with an accuracy of 0.5 ° C.
3. An alcohol thermometer can serve as a permanent measuring device, which is applied to the radiator, glued with tape, and wrapped on top with foam rubber or other heat-insulating material.
4. Heating of the coolant is also measured by electrical measuring instruments with the function "measure the temperature". For measurement, the wire with the thermocouple is screwed to the radiator.

By regularly writing down the data of the device, fixing the readings in the photo, you can make a claim to the heat supplier

Important! If the radiators do not heat up enough, after submitting an application to an authorized organization, a commission should come to you, which will measure the temperature of the fluid circulating in the heating system. The actions of the commission must comply with clause 4 of "Methods of control" in accordance with GOST 30494−96. The device used for measurements must be registered, certified and pass state verification. Its temperature range should be in the range from +5 to + 40 ° С, the permissible error is 0.1 ° С.

Regulation of heating radiators

Regulation of the temperature of the radiators is necessary in order to save on heating the room. In high-rise apartments, the heat supply bill will decrease only after the installation of the meter. If a boiler is installed in a private house that automatically maintains a stable temperature, regulators may not be needed. If the equipment is not automated, the savings will be substantial.

What is the adjustment for?

Adjusting the batteries will not only help you achieve maximum comfort, but also:

• Remove airflow, ensure the movement of the coolant through the pipeline and heat transfer to the room.
• Reduce energy costs by 25%.
• Do not constantly open windows due to overheating of the room.

Heating settings must be carried out before the start of the heating season. Before that, you need to insulate all the windows. In addition, the location of the apartment is taken into account:

• angular;
• in the middle of the house;
• on the lower or upper floors.

• insulation of walls, corners, floors;
• hydro and thermal insulation of butt joints between panels.

Without these measures, the regulation will not be beneficial, since more than half of the heat will warm the street.

Insulation of a corner apartment will help to minimize heat loss

Radiator regulation principle

How to properly regulate radiators? To rationally use the heat and ensure uniform heating, valves are installed on the batteries. They can be used to reduce the flow of water or to disconnect the radiator from the system.

• In district heating systems for high-rise buildings with a pipeline through which the coolant is fed from top to bottom, it is impossible to regulate the radiators. It is hot on the upper floors of such houses, cold on the lower ones.
• In a one-pipe network, the coolant is supplied to each battery with a return to the central riser. The heat is evenly distributed here. Control valves are mounted on the supply pipes of the radiators.
• In two-pipe systems with two risers, the coolant is supplied to the battery and vice versa. Each of them is equipped with a separate valve with a manual or automatic thermostat.

Types of control valves

Modern technologies allow the use of special control valves, which are heat exchangers of shut-off valves connected to the battery. There are several types of taps that allow you to regulate heat.

The principle of operation of control valves

According to the principle of action, they are:

• Ball, providing 100% protection against accidents. They can rotate 90 degrees, let water through or shut off the coolant.
• Standard budget valves without temperature scale. Partially change the temperature, blocking the access of the heat carrier to the radiator.
• With a thermal head that regulates and monitors system parameters. They are mechanical and automatic.

Exploitation ball valve is reduced to turning the regulator to one side.

Note! The ball valve must not be left half-open as this could damage the O-ring and result in leakage.

Conventional direct-acting thermostat

A direct-acting thermostat is a simple device installed near a radiator that allows you to control the temperature in it. Structurally, it is a sealed cylinder with a bellows inserted into it, filled with a special liquid or gas capable of reacting to temperature changes. Its increase causes expansion of the filler, as a result of which the pressure on the stem in the regulator valve increases. It moves and shuts off the coolant flow. Cooling down the radiator will reverse the process.

A direct-acting thermostat is installed in the pipeline of the heating system

Temperature controller with electronic sensor

The principle of operation of the device is similar to the previous version, the only difference is in the settings. In a conventional thermostat, they are performed manually; in an electronic sensor, the temperature is set in advance and maintained by it within the specified limits (from 6 to 26 degrees) automatically.

A programmable thermostat for heating radiators with an internal sensor is installed when there is a possibility of horizontal placement of its axis

Heat regulation instruction

How to regulate the batteries, what steps must be taken to ensure a comfortable environment in the house:

1. Air is released from each battery until water flows out of the tap.
2. The pressure is regulated. To do this, in the first battery from the boiler, the valve opens two turns, on the second - three turns, etc., adding one turn for each subsequent radiator. This scheme ensures optimal passage of the coolant and heating.
3. In forced systems, the circulation of the coolant and the control of heat consumption are carried out using control valves.
4. Built-in thermostats are used to regulate heat in a flow-through system.
5. In two-pipe systems, in addition to the main parameter, the amount of coolant is controlled in manual and automatic modes.

What is a thermal head for radiators for and how does it work:

Comparison of temperature control methods:

Comfortable living in high-rise apartments, country houses and cottages is ensured by maintaining a certain thermal regime in the premises. Modern systems heat supply allow you to install regulators that maintain the required temperature. If the installation of regulators is not possible, the responsibility for the heat in your apartment lies with the heat supply organization, which you can contact if the air in the room does not warm up to the values ​​stipulated by the standards.

The temperature of the coolant in the heating system is normal

Batteries in apartments: accepted temperature standards Heating batteries are currently the main existing elements of the heating system in city apartments. They represent uh ...

To maintain a comfortable temperature in the house during the heating season, it is necessary to control the temperature of the coolant in the pipes of heating networks. The workers of the central heating system of residential premises are developing special temperature schedule, which depends on weather indicators, climatic characteristics of the region. The temperature schedule may differ in different settlements, and it can also change when modernizing heating networks.

A schedule is drawn up in the heating network for simple principle- the lower the temperature outside, the higher it should be for the coolant.

This ratio is important reason for work enterprises that provide the city with heat.

For the calculation, an indicator was applied, which is based on average daily temperature the coldest five days of the year.

ATTENTION! Compliance with the temperature regime is important not only for maintaining heat in an apartment building. It also makes it possible to make the consumption of energy resources in the heating system economical and rational.

The graph, which indicates the temperature of the coolant depending on the outside temperature, allows the most optimal way to distribute not only heat, but also hot water among the consumers of an apartment building.

How the heat in the heating system is regulated

Heat regulation in an apartment building during the heating season can be carried out in two ways:

• By changing the water flow at a certain constant temperature. This is a quantitative method.
• By changing the temperature of the coolant at a constant flow rate. This is a qualitative method.

Economical and practical is second option, in which the room temperature regime is observed regardless of the weather. The supply of sufficient heat to the apartment building will be stable, even if there is a sharp change in temperature outside.

ATTENTION!... The norm is considered to be a temperature of 20-22 degrees in an apartment. If the temperature schedules are respected, such a rate is maintained for the entire heating period, regardless of weather conditions, wind direction.

When the temperature indicator on the street decreases, data is transmitted to the boiler room and the degree of the coolant automatically increases.

The specific table of the ratio of outdoor temperature indicators and the coolant depends on factors such as climate, boiler equipment, technical and economic indicators.

Reasons for using a temperature chart

The basis for the operation of each boiler house serving residential, administrative and other buildings during the heating period is the temperature schedule, which indicates the standards for the indicators of the coolant, depending on what the actual outside temperature is.

• Scheduling makes it possible to prepare heating for a drop in outdoor temperatures.
• It is also energy saving.

ATTENTION! In order to control the temperature of the coolant and have the right to recalculate due to non-compliance with the thermal regime, the heat sensor must be installed in the centralized heating system. Metering devices must be checked annually.

Modern construction companies can increase the cost of housing by using expensive energy-saving technologies in the construction of multi-apartment buildings.

Despite the change in construction technologies, the use of new materials for the insulation of walls and other surfaces of the building, the observance of the coolant temperature norm in the heating system - optimal way maintain comfortable living conditions.

Features of calculating the internal temperature in different rooms

The rules provide for maintaining the temperature for the living space at the level of 18˚С, but there are some nuances in this matter.

• For angular rooms of a residential building coolant must provide a temperature of 20˚С.
• Optimal temperature indicator for a bathroom - 25˚С.
• It is important to know how many degrees should be according to the standards in rooms intended for children. Indicator set from 18˚С to 23˚С. If it is a children's pool, the temperature should be kept at 30 ° C.
• Minimum temperature allowed in schools - 21˚C.
• In institutions where cultural events are held according to the standards, maximum temperature 21˚С, but the indicator should not fall below 16˚С.

To increase the temperature in the premises during sudden cold snaps or strong northerly winds, boiler house workers increase the degree of energy supply for heating networks.

The heat transfer of batteries is influenced by the outside temperature, the type of heating system, the direction of the flow of the coolant, the state of utilities, the type of heating device, the role of which can be played by both a radiator and a convector.

ATTENTION! The delta of temperatures between the supply to the radiator and the return should not be significant. Otherwise, there will be a big difference in the coolant in different rooms and even apartments in a multi-storey building.

The main factor, however, is the weather. This is why measuring the outside air to maintain the temperature schedule is a top priority.

If it is freezing outside up to 20˚С, the coolant in the radiator should have an indicator of 67-77˚С, while the norm for the return flow is 70˚С.

If the outside temperature is zero, the norm for the coolant is 40-45˚С, and for the return flow - 35-38˚С. It should be noted that the temperature difference between supply and return is not large.

Why does the consumer need to know the norms for the supply of the coolant?

Payment for utilities in the heating column should depend on the temperature in the apartment provided by the supplier.

The table of the temperature schedule, according to which the optimal operation of the boiler should be carried out, shows at what temperature of the surrounding world and by how much the boiler room should increase the degree of energy for heat sources in the house.

IMPORTANT! If the parameters of the temperature schedule are not met, the consumer may require recalculation for utilities.

To measure the indicator of the coolant, it is necessary to drain a little water from the radiator and check its degree of heat. Also used successfully heat sensors, heat metering devices that can be installed at home.

The sensor is a mandatory equipment for both city boiler houses and ITP (individual heating points).

Without such devices, it is impossible to make the operation of the heating system economical and productive. The measurement of the coolant is also carried out in hot water systems.

Useful video

The temperature schedule of heating networks allows suppliers of heat transfer companies to set the mode of correspondence between the temperature of the transmitted and return heat carrier with the average daily temperature indicators of the ambient air.

In other words, during the heating season, for each settlement of the Russian Federation, a temperature schedule for heat supply is developed (in small settlements - the temperature schedule for a boiler house), which obliges thermal stations different levels ensure the technological conditions for the supply of heat carrier (hot water) to consumers.

Regulation of the temperature schedule of the coolant supply can be carried out in several ways: quantitative (change in the flow rate of the coolant supplied to the network); high-quality (temperature control of the supply streams); temporary (discrete hot water supply to the network). Methods for calculating and constructing a temperature graph assume specific approaches when considering heating networks for their intended purpose.

Heating temperature graph- normal temperature profile of the heating network circuits, operating exclusively for the heating load and regulated centrally.

Increased temperature graph- calculated for a closed heat supply circuit that meets the needs of the heating system and hot water supply of the connected objects. In the case of an open system (loss of coolant during water consumption), it is customary to talk about an adjusted temperature graph of the heating system.

Calculation of the graph of the temperature regime of heating systems according to the methodology is rather complicated. For example, we can recommend the methodological development of Roskommunenergo, which received the approval of the State Construction Committee of the Russian Federation on March 10, 2004 No.SK-1638/12. Initial data for building a temperature graph of a specific heat generating station: outdoor temperature Tnv; air in the building TVn; coolant in the supply ( T 1) and inverse ( T 2) pipelines; at the entrance to the heating system of the building ( T 3). The values ​​of the relative flow rate of the coolant, the coefficients of the hydraulic stability of the system during the calculation are normalized.

Heating system calculations can be performed for any temperature schedule, for example, for generally accepted schedules of large heat transfer organizations (150/70, 130/70, 115/70) and local (house) heating points (105/70, 95/70). The numerator of the graph shows the maximum water temperature at the inlet to the system, the denominator - at the outlet.

The results of calculating the temperature graph of the heating network are summarized in a table that sets temperature conditions at the nodal points of the pipeline depending on Tnv, for example this.

Sequential calculation temperature indicators coolant with decreasing discreteness Tnv allows you to build a temperature graph of the heating network, on the basis of which, according to the average daily temperature of the ambient air and the selected operating schedule, you can make the minimum and maximum temperature cut and determine the current parameters of the coolant in the system.