The device and operation of boiler installations. Operation of boiler houses. Regime adjustment of boilers

Adjustment of boiler equipment is carried out in order to extend the life of the device, maintain the uninterrupted operation of the heating system and hot water supply, and also, in the event of breakdowns. The boiler house is repaired and maintained by specialists of organizations that control the safety of life associated with heating equipment.

Regime adjustment of boilers

Operational and commissioning tests are a set of calculations, commissioning, which is carried out to increase energy saving by setting up equipment in specific conditions in accordance with the resource consumption norms specified in the project documentation. Wherein technical compliance with the parameters of all operating modes is recorded boiler rooms in accordance with load standards.

Upon completion of the regime and adjustment tests, the specialist must issue a regime card, which indicates the technical parameters of the boiler, power and efficiency indicators, fuel consumption calculations in different performance modes, automation parameters of controlled processes, safety level and compliance with equipment standards.

Over time, the technical data recorded in the map begin to change, therefore, according to the instructions, performance testing should be carried out once every 3-5 years (for boilers on solid and - at least once every 5 years, for gas - at least once every 3 years). These instructions are legally approved in the set of "Rules for the technical operation of thermal power plants".

Performance testing is required when:

• Identify and eliminate breakdowns;
• Improve fuel economy;
• Reduce the formation of combustion and heating by-products;
• Coordinate the work of the boiler and increase the efficiency;
• Extend the life of the thermal unit;
• Test new equipment;
• Make a calculation of thermal power.

Maintenance

Requirements for the maintenance of heating boilers are aimed at checking the safety and performance of equipment. Maintenance helps to maintain the working condition of all components of the boiler room, monitoring their serviceability in a timely manner. This type of work is carried out by specialized organizations. The calculation of the cost of services is simple: the greater the power of the equipment, the higher the cost of its maintenance.

Read also: Boiler equipment

Maintenance can be carried out after a certain period, weekly (cleaning boiler equipment, flushing pipes from salt deposits), monthly (checking the condition of burners, automation), seasonal (cleaning the firebox, draining fuel, replacing components).

It is possible to clean the boiler installation from scale and salt deposits in several chemical ways.

• Acid washing is carried out under pressure using a 10% acid solution (hydrochloric or otherwise).
• Alkaline washing is carried out using soda at the rate of 1-2% of the volume of water heated to a high temperature.
• Preservation is necessary if the unit will be idle for a long time. The order in which conservation is performed is usually specified by the manufacturer. Conservation can be carried out in two ways. Wet version. In this case, an alkaline solution is poured into the boiler installation, and the system is brought to a boil with open safety valves. Evaporation removes gaseous components from the water. Dry preservation method includes the following order of execution: cleaning the water heater from scale, drying with a moisture absorber (lime, calcium chloride), filling the system with nitrogen, pressurizing, sealing. This option of conservation is used less frequently, it can only be carried out by specialists.

Repair

Repair work is carried out in case of detection during the inspection of violations or non-compliance with the standards.

Description of the boiler TP-10

Purpose, design and operational characteristics of the boiler.

The TP-10 boiler is single-drum, manufactured by the Taganrog Boiler Plant Krasny Kotelshchik, and operates in a unit with a PT-60–90/13 turbine.

The workshop has two such boilers, station No. 1 and 2, with a capacity of 220 tons / hour, working pressure in the drum 110 kgf / cm 2, temperature of superheated steam 540 ° C. Minimum productivity 130 tons / hour, efficiency - 91.6%.

The boiler furnace is a chamber furnace for burning fuel in a pulverized state. Fuel oil grade M - 40 or M - 100 is used as starting fuel. The boiler is equipped with four fuel oil nozzles of the MFPR - 3 type, mounted under burners No. 5,6,7,8. Fuel oil is sprayed with steam 14 kgf/cm. Boilers No. 1,2 additionally have tie-ins from air distribution to fuel oil spray. For combustion, coals of the Cheremkhovskoye deposit of grade "D" and Azeya grade "B - 3" are used. The composition and characteristics of these coals will be described below.

The boiler unit is equipped with an individual pulverizing system with an intermediate coal dust bin. To clean flue gases from ash, wet ash collectors are installed on the boiler unit. Each unit is equipped with smoke exhaust, fan installations.

The frame of the boiler weighing 290 tons consists of metal columns connected by horizontal trusses and braces and serves to absorb the load from the drum, heating surfaces, lining, gas-air boxes, insulation and boiler maintenance platforms. Beams, to which screen contours with lining are suspended, are attached to the upper frame of the frame. The frame is welded from profile rolled metal and steel sheets. The vertical columns rest on a reinforced concrete foundation. To increase the rigidity of the frame in case of seismic impact, stiffening brackets made of pipes with a diameter of 150 mm are installed on the side walls of the boiler.

Brickwork - lightweight type. The walls of the combustion chamber and the cold funnel have a hairpin-type pipe lining, consisting of the following layers:

a) refractory concrete 20 mm thick, applied along the grid on the screen pipes;

b) mineral wool mats, reinforced with pins to the screen pipes;

c) sealing lining 40 mm thick, applied over the mesh over the wool;

d) gas-tight coating.

The ceiling of the combustion chamber and the horizontal flue is insulated in the same way as the furnace, along the ceiling pipes.

The lining of the ceiling, together with the pipes, is attached to the frame beams with the help of hangers. The walls of the turning chamber and the convection shaft are lined with fireclay or diatomite bricks.

Drum and intra-drum device

A welded unheated drum with a diameter of 1778x89 mm, steel 22K, is mounted above the combustion chamber. Connection of all pipes is carried out by electric welding to the factory welded fittings. Feed water after the economizer through 8 pipes with a diameter of 108 x 8 mm. Through steam jackets it enters the drum to the feed trough located in the clean compartment, and from there it overflows to the surface of the boiler water. Two end pipes are brought into the space of the salt compartments to wash the wet steam from the salts dissolved in it.

Steam separation in the drum is mechanical and gravitational without flushing with feed water (except for salt compartments).

Steam-water mixture from panels of screen heating surfaces through 36 pipes with a diameter of 130 x 10 mm. is introduced into the boiler drum under the baffles located above each pipe along the clean compartment on both sides.

After passing through the shutters, the steam enters the steam space of the drum, where gravity separation takes place. Moisture flows to the surface of the water mirror. In the upper part of the drum, steam through a perforated sheet, where the second separation stage takes place, is directed through 32 pipes with a diameter of 60 x 5 mm to the ceiling superheater.

The steam-water mixture enters the salt compartments through 6 pipes (3 from each panel) under the fenders. The steam from the salt compartments enters the clean one through vertical shutters, which, together with the vertical wall at the ends of the drum, form the volume of the salt compartments. The salt content of the boiler water of the saline compartments reaches up to 500 mg/dm 3 . To prevent the removal of salts, before the steam exits, a flushing device (shower) of steam with feed water is installed in the vertical blinds. These are transverse pipes with plugged ends and a large number of holes directed to the bottom, through which feed water is sprayed.

Each compartment - two salty and one clean - has its own water meter to control the water level in the compartments. Separate lines with continuous blowdown regulators were made from the salt compartments and brought into the barbater.

Superheater

Saturated steam from the drum is sent through 32 pipes with a diameter of 60 x 5 mm to 4 inlet chambers of the ceiling superheater (material steel 20), with a diameter of 60 x 5 mm. The ceiling superheater consists of 4x38=152 pipes (material steel 20), 4 outlet chambers of the ceiling superheater with a diameter of 219x25 mm (material steel 15XM).

Each outlet chamber of the ceiling superheater is welded with 4 chambers of a screen superheater (4x4 = 16 in total) with a diameter of 168x16 mm (material st. 15XM). Inside each chamber, one partition is installed, which contributes to the sequential flow of steam from the first strip into the second strip of the screen superheater. The outlet coils of the second SHPP tape are welded to short outlet chambers made of 12KhMF steel, which are welded in 4 pieces to four common, transversely located outlet chambers (15KhM steel). The same chambers are the input for the second part of the ceiling superheater.

Thus, across the width of the boiler in front of the entrance to the revolving chamber there are 16 two strip screens ShPP. The first screen strips (along the gases) are made of pipes Ø 32x4 mm, steel 20; allowable wall temperature is not more than 430 ° C.

The second screen strips are made of pipes Ø 42x4.5 mm, steel 12KhMF. The first tape consists of 14, the second - of 10 coils; along the gas flow they form 14×2+10×2=48 rows of SHPP. 216 coils Ø 42x4.5 mm (steel 12KhMF) of a ceiling superheater with steam transfer from the outer coil packs to the coils of the middle part of the gas duct and, conversely, from the middle ones to the outer parts, come out of 4 common outlet chambers of the SHPP. The ceiling superheater (second part) is located above the rotary chamber and the convection shaft; then its coils pass into the loops of the first stage of the convective superheater, made according to the principle of mixed current with a predominance of countercurrent (2 countercurrent loops and 1 direct-flow loop). The hinges are made of pipes Ø 42x5.5 mm (steel 12XMF). From the first stage of the convective superheater, steam enters 4 chambers Ø 273x35 mm (steel 15 XM), then through 4 pipes Ø 133x10 mm from two right chambers it enters the right desuperheater and from two left chambers through 4 pipes Ø 133 × 10 mm into the left one. The diameter of the desuperheaters is 273x35 mm.

From the right desuperheater, through 4 pipes Ø 233 × 10 mm, steam enters the two inlet chambers of the second stage of the convective superheater located on the left side, and from the left desuperheater into two chambers on the right side; diameter of all 4 chambers 273×10 mm, steel 15XM. Such transfer of steam provides for the equalization of temperatures in the coils along the width of the gas flow and eliminates the effect of gas distortions along the width of the rotary chamber.

The second stage of the convective superheater consists of 108 pipes Ø 42×5.5 mm steel 12KhMF and is connected according to the cocurrent principle.

Having passed the coils of the second stage of the superheater, the steam exits into 4 outlet chambers with a diameter of 325 × 45 mm, steel 12KhMF. From the outlet chambers, steam is discharged through 3×4=12 pipes with a diameter of 133×13 mm into a steam-collecting chamber Ø 325×58 mm, steel 12KhMF.

The main safety valves are located on the steam collecting chamber. Having passed the main steam valve with a bypass, located on the boiler ceiling, steam from the steam collecting chamber is directed to the turbine through a steam pipeline Ø 273 × 28 mm, steel 12KhMF. In front of the valve PP-2, a branch is made from the steam pipeline to the BROU located in the turbine compartment.

Desuperheater

To regulate the superheated steam temperature, the boiler is equipped with a mixed-type desuperheater located in the gap between the I and II stages of the convective superheater. The desuperheater consists of 2 vertical chambers Ø 273×35 mm located on the left and right sides of the boiler. Steam enters the upper parts of the chambers, spray nozzles are located below the steam supply, the latter are located along the steam path. Feed water is supplied to the nozzles through a special line from the feed unit.

Economizer

The economizer is located in the convection shaft of the boiler and consists of two stages. The first stage of the economizer (along the water flow) is located between the I and II stages of the air heater. Feed water is supplied to 4 inlet chambers Ø 219x16 mm, steel 20 (two on each side), of which 136 coils Ø 32x3.5 mm, steel 20, after passing through 8 (4 outlet and 4 inlet) intermediate chambers, water exits on 4 outlets chambers with a diameter of 219x16 mm, steel20. Thus, the first stage of the economizer consists of two sections in terms of the depth of the flue and two parts in terms of height.

In terms of width, I and II stages of the economizer consist of two parts: left and right. Moreover, the coils run along the entire width of the flue. The location of the coils is staggered, the movement of water along them is counter. Intermediate chambers (4 outlets and 4 inlets) are connected by pipes Ø 60x5 mm, 10 pieces (5x20) on each side of the flue. From the outlet chambers of the 1st stage, water is transferred through 8 pipes Ø 60x5 mm (4 pipes on each side) to the 2nd stage of the economizer; moreover, water from the packages located at the rear wall of the convective shaft is directed to the packages of the II stage located at the front wall of the convective shaft.

Air heater

A two-stage air heater is mounted on the boiler from small-sized tubes with a diameter of 40x1.5 mm, steel 20. The first stage of the air heater (along the air flow) is located at the end of the convective shaft in front of the flue going to the ash collectors, and consists of 16 cubes (4 in width, 2 in depth and 2 in height). Heating surface - 9740 m 2. The second stage of the air heater is located between the stages I and II of the economizer and consists of 8 cubes (4 in width and 2 in depth). Heating surface - 4870m 2 .

Powerful heating equipment requires a professional attitude, and therefore the operation of boiler rooms is a necessary service that our company offers. The experience and qualifications of the employees allow us to successfully cope with the task of increased complexity, guaranteeing stable work.

What do we offer?

The operation of boiler houses includes technical manipulations (setting the operating mode, troubleshooting, preventing them, etc.) and solving organizational issues. These include the conclusion of profitable agreements for the supply of fuel, the issuance of permits for putting equipment into operation, and so on. If we talk about the list of services provided, then it looks like this:

• constant maintenance of the operability of thermal systems in compliance with technical recommendations, fire safety rules and other regulations and documents;
• preventive maintenance and recovery, if necessary;
• development of job descriptions, rules and responsibilities that staff must adhere to;
• conducting staff training (there is a check to what extent employees know the duties and are oriented in safety rules);
• maintaining thermal installations in good condition, in which they demonstrate maximum efficiency at minimum operating costs and safety;
• analysis of violations committed during the use of boiler plants, generation of reports to prevent the recurrence of cases;
• compliance with the requirements and recommendations put forward by state control bodies;
• control over compliance with hydraulic and thermal modes of equipment operation;
• analysis of the efficiency of boilers with the subsequent development of an action plan, the implementation of which helps to reduce fuel consumption without compromising power.

The need for control

The service is not a one-time service - the need for it is permanent. It eliminates the possibility of equipment failure and the occurrence of dangerous phenomena (detonations, coolant pollution, mechanical damage, critical pressure drops, etc.). The company is working to prepare the units for launch, calculates the upcoming loads, and checks that the operating parameters of the units correspond to them.
Based on the information received, a schedule of further checks is formed, the conduct of which ensures that there are no problems with performance. This eliminates the need for expensive repairs caused by the failure of the assembly or mechanism. The assistance of professionals is also useful during periods of equipment downtime, because in the absence of a load, wear is possible due to the natural aging of materials.

Profitable cooperation

Contacting the company guarantees the following benefits:

• Operation is carried out by qualified personnel, which eliminates the possibility of errors.
• Employees of the company are trained to work with all types of equipment. They cater to legacy, manual operation and high performance, automated workflow installations.
• We guarantee a responsible approach to work. We take care of the solution of issues related to the technical and material part. We are engaged in paper work, which is related to obtaining permits for commissioning. We will help in concluding profitable contracts with fuel suppliers.

We are ready to provide professional advice and accept the application. Call today!

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make-up pumps

The teacher drove Vovochka out into the corridor for bad behavior and said: - Without a father, so that he does not come to school. Vovochka is standing in the corridor, whimpering. The director passes by. Vovochka told him everything. The principal asks, “Where does your father work?” - In the Central Committee, says Vovochka. The director went up to the teacher and said that let's give Vovochka a trial period, we won't call the father right away, he works in the Central Committee after all. Little Johnny came home joyful and said to his father: - Dad, again your Central Boiler House helped me out.

By subscribing to the Boiler Operator Training Package, You will receive the book “Definition of Knowledge. Boiler room operator test”. And in the future you will receive from me both free and paid information materials.

TOR ON THE TOPIC "OPERATION OF BOILER PLANTS" №1

The test "Operation of boiler systems" serves to test the knowledge of the boiler operator. In his work, the boiler room operator must be guided by two main documents - the Operator's Production Instructions and the regime map of the boiler. Urgently check your professional competence and demand in the labor market!

1. The work permit for carrying out work on the initial start-up of gas into the boiler room must be stored:

a) at least one year with registration in a special journal;

b) constantly in the executive and technical documentation for this object;

c) this work is not considered gas hazardous and therefore a work permit for its implementation is not issued.

Works are called gas hazardous if they are performed:

a) in a gassed environment with an oxygen content of less than 20%;

b) in a gassed environment with a methane content of more than 1%;

c) in a gassed environment, or work in which gas can escape from gas pipelines and units.

3. Choose the most correct answer from those offered. The degree of carbon monoxide (CO) poisoning depends on:

a) the age and health of the person;

b) the percentage of the latter in the air;

c) correct operation of the hot water boiler (operation according to regime cards);

d) the percentage of the latter in the air and the duration of a person's stay in a gassed environment.

The alarm for gas contamination of the boiler room with methane (CH 4) is triggered when the concentration in the boiler room is equal to:

a) 5%; b) 1%; c) 0.08%; d) 5 - 15%; e) 0.05%.

5. Choose the correct answer from those offered. The work of replacing a faulty pressure gauge on a gas pipeline is:

a) gas hazardous and can be carried out by any instrumentation specialist;

b) not gas hazardous and can be carried out by any instrumentation specialist who has been instructed in the safe conduct of this work;

c) gas hazardous and carried out, as a rule, by a permanent staff of workers without issuing a work permit, but according to approved production instructions.

6. Choose the correct answer from those offered. The regime map of the boiler operation is used for:

a) inspectors who control the preparation of the boiler house for the heating season;

b) regulation of operation of auxiliary equipment of the boiler;

c) an inspector of Gostekhnadzor upon acceptance of the boiler into operation;

d) control of the parameters of the boiler operation, which ensure safe and economical operation in the required performance range.

7. Complete. The following mandatory signaling is displayed on the control panel:

a); b); in); G); e).

8. Complete. The locking device at the gas pipeline inlet to the boiler room must be immediately closed when:

a); b); in); G).

9.Complete. Reheating water to a boil is...

10. List. Requirements for the watch (shift) log:

a); b); in); G); e); e); and).

TOR ON THE TOPIC "OPERATION OF BOILER PLANTS"№2

KNOWLEDGE ASSESSMENT TEST QUESTIONS

When re-testing knowledge, the boiler operator received an unsatisfactory rating. In this case, the person responsible for the safe operation of the boiler:

a) must not allow the boiler operator to work and set a deadline for re-testing knowledge. Only after a positive attestation, the boiler operator can be allowed to work;

b) may not suspend the operator from work, but is obliged to reduce the discharge of the boiler operator;

c) in agreement with the inspector of Gostekhnadzor, may allow the operator to work and set a date for re-testing knowledge.

2. Choose the most correct answer from those offered. Boiler house operator in the event of a power outage:

a) must immediately turn off all electric motors in the boiler room;

b) is not obliged to turn off the electric motors, this is done by the personnel of the electrical department;

c) must immediately turn off all electric motors in the boiler room. This should be reflected in the Operator's Production Instructions for emergency shutdown of the boiler in the event of a power outage.

3. Choose the correct answer from those offered. Control of gas contamination in the boiler room is carried out:

a) at least once per shift; b) at least once a day; c) after 2 hours; d) all the time.

4. Choose the correct answer from those offered. Putting out the fire on the gas pipeline:

a) only carbon dioxide fire extinguishers; b) only foam and powder fire extinguishers;

c) water jet; d) tarpaulin, felt mat and other materials for covering and isolating the flame from oxygen access; e) all of the above.

5. Choose the correct answer from the options provided. The use of filtering gas masks during gas hazardous work:

a) not allowed; b) allowed with the permission of the work manager; c) it is allowed if the duration of work in a gas mask is not more than 30 minutes.

6. Choose the correct answer from the options provided. In the event of an accident in the gas facilities of the boiler house, the operator must first call (notify):

a) responsible for the safe operation of the boiler; b) wife; c) the operator of the boiler house must follow the notification scheme in case of accidents in the gas facilities of the boiler house. d) responsible for the safe operation of the gas facilities of the enterprise;

7.Choose the correct answer from the options provided. The largest heat loss in a hot water boiler is:

a) heat loss from chemical underburning. The main way to reduce it is automatic control of the combustion process;

b) heat loss with exhaust gases The main way to reduce it is to keep the outer and inner surfaces of pipes clean;

c) heat loss from brickwork cooling. The main way to reduce it is good insulation of the external surfaces of the boiler.

QUESTIONS FOR THE ASSESSMENT OF SKILLS AND SKILLS

8. List. The plan for localization and liquidation of emergency situations should provide for:

a); b); in); G); e).

9. Define. Use the graph to determine the conditions for mild carbon monoxide (CO) poisoning by the operator.

Graph of human poisoning with carbon monoxide (CO)

TEST QUESTIONS TO ASSESS THE READINESS TO ACTION

10. Set the correct sequence. This sequence must be reflected in the Operator's Production Instructions. The boiler room operator, when the safety automation is triggered, must:

Dear friend! The answers to this test can be found in the Boiler Operator Test Kit or in the Boiler Operator Training Manual. These information materials are paid. It is advisable to have them in your personal library. Questions and recommendations can be left on. See you!

Sincerely, Grigory Volodin

The gas boiler house has specific features that must be taken into account during its operation and maintenance. Each employee hired by the boiler room must meet the following requirements:

• Passed medical examination;
• Completed safety briefing during the operation of boiler rooms;
• Passing training in an accredited educational institution;
• Passing the examination of the qualification commission.

Starting and kindling a gas boiler

The process of starting the boiler, which runs on gas fuel, is carried out in stages. The employee responsible for starting the boiler must do the following:

• Check the general technical condition of the gas pipeline, automation, dampers and instrumentation;
• Check the presence of traction in the equipment and the condition of the masonry;
• Close all necessary locking devices on the equipment;
• Check the pressure in the pipeline.

It is important to note that the process of kindling the boiler can only be carried out if the gas equipment is accepted by Rostekhnadzor. Equipment assessment for compliance with current requirements is carried out by the acceptance committee. After the acceptance, the equipment is registered, and the inspector of the commission puts the permit in the boiler passport. If the boiler is not registered with the Gosgortekhnadzor, its kindling occurs only after a written order is received from the employee who is responsible for the operation of the boiler room.

Operation of boiler houses

The operation of boiler houses is a responsible process that involves regular preventive maintenance, technical inspection and maintenance. As part of the operation, boiler house employees are required to carry out a number of activities provided for by internal instructions.

Due to the need for technical work and constant monitoring of the operation of equipment, boiler house owners often resort to the services of third-party companies, outsourcing the operation of boiler houses. The main task of the specialists of such companies is to ensure the efficient and uninterrupted operation of the entrusted facility. At the same time, it is also necessary to maintain the equipment in good condition and, if necessary, carry out repairs.

As a rule, the operation of boiler houses includes:

1. Registration of the boiler house with the regulatory authorities (if the client applied before the boiler house was put into operation);
2. Approval of all necessary documentation in the regulatory authorities;
3. Maintaining the equipment of the boiler room in a stable working condition in accordance with the instructions and safety rules;
4. Carrying out preventive and repair work (both planned and unscheduled);
5. Maintaining documentation and reporting.

The rest of the work and activities can be carried out in accordance with the wishes of the client after the initial audit of the company's specialist. For example, at the request of the customer, specialists can only undertake maintenance or commissioning and further maintenance of the turnkey boiler house.

Boiler operation services from third-party companies

The uninterrupted operation of the boiler room depends not only on the qualifications of the employees, but also on the control of the owner. The owner of a boiler house needs to spend a significant amount of time to maintain control and invest significant budgets for updating, repairing and upgrading equipment.

You can get rid of all the worries of managing a boiler house by contacting one of the companies that provides services for the maintenance and operation of boiler houses. Turning to the company, the owner of the boiler room saves himself from the following tasks:

• The need to find qualified personnel. Each owner of a boiler house spends a lot of time looking for personnel who have the necessary qualifications. By contacting an outsourcing company, you will not need to look for personnel on your own - a team of highly qualified specialists will already be formed at your facility.
• Cost savings. The maintenance of the boiler room is quite expensive. Among the main costs are staff salaries, repair and maintenance work, equipment depreciation and others. Instead of high costs for various needs, the owner of the boiler house can allocate a certain amount for operation.
• Interaction with regulatory authorities. Preparation of documentation for the registration of a boiler house, obtaining permits, passing an inspection - this is only part of the activities for working with Rostekhnadzor and other authorities. A third-party company will take care of all issues related to interaction with regulatory authorities.
• Cost minimization. Proper operation of the boiler room will reduce the wear and tear of equipment and, consequently, extend its service life. Thus, you will save on the repair and modernization of equipment.

Operation of the gas equipment of the boiler house from TSK-Sheremetyevo

Among a number of companies that provide services for the operation of boiler houses, TSK-Sheremetyevo can be distinguished. For a long time in the market of electricity and heat, we have won the trust of many customers, which include large companies and enterprises. The main advantages of cooperation with us are:

• Smart pricing policy. The cost of our services is much lower than all the costs that accompany the independent operation of boiler houses.
• A rich experience. For the entire period of our company's activity, we have served more than a hundred boiler houses of various types. We continue to work with some of our clients to this day.
• Equipment. All specialists performing work at the customer's site are provided with the necessary modern equipment and all materials.
• High qualification of specialists. Each specialist who works at TSK-Sheremetyevo is highly qualified, confirmed by the certification committee.
• Full compliance with applicable requirements and regulations. During the operation of boiler houses, our specialists are guided not only by the wishes of customers, but also by all safety rules.

Finding a responsible and reliable contractor for the operation of boiler rooms is not very difficult. It is much more difficult to find a contractor who can offer a combination of a high level of service, full compliance with current safety requirements and low prices. It is the TSK-Sheremetyevo company that can offer you such a combination. To start cooperation with us, you just need to leave your contact details in the feedback form, after which the managers of our company will contact you and discuss all the details of further cooperation. After that, one of our specialists goes to your facility in order to study the technical condition of the equipment. Then we prepare a commercial offer with the price and types of work and send it to you.

Do you need reliable gas boiler operation? In the face of TSK-Sheremetyevo you will find a responsible partner for a long time.