One of the main stages of facility design capital construction, reconstruction (in cases of complete reconstruction of the facility including the facility’s utility networks), is the development of a master plan utility networks(communications) (hereinafter referred to as SIS).

SPIS is a plan with all communications of the designed object. To draw communications, use a report on engineering geodetic surveys, scale is 1:500. Each design company has a chief project engineer (CPE), who plots all networks on one plan. After drawing all the communications, it becomes clear the number of intersections with other existing engineering communications of the city and the inclusion of communications in the security zone of existing objects. The chief engineer of the project, together with the head of the technical customer’s department, draw up a list (list) of organizations with which it will be necessary to agree on the FPIS. Our company employs specialists with a high level of competence in solving non-standard problems, which in turn leads to a reduction in design and approval time in city structures. We employ designers with knowledge of all building codes and regulations, GOST, and have direct experience in the structures of Mosvodokanal - a monopolist in the water supply sector, MOEK - a monopolist in the heat supply sector, MOSVODOSTOK - a state-owned unitary enterprise, responsible for drainage of surface runoff in Moscow, network organizations "OEC", "MOESK".

Our designers designed all the engineering communications of the built Magnit stores in Moscow, the internal and external supply networks of the Likhachev plant, innovative geothermal thermal wells, including wiring, pumps and many others.

Our design organization has been offering a full range of services for designing water supply and sewerage networks for capital construction projects.

Water supply and sewerage design is carried out on the basis of the following building codes:
- INTERNAL WATER PIPELINE AND SEWERAGE OF BUILDINGS (Updated edition of SNiP 2.04.01-85)
- WATER SUPPLY. EXTERNAL NETWORKS AND STRUCTURES (Updated edition of SNiP 2.04.02-84)
- SEWERAGE. EXTERNAL NETWORKS AND STRUCTURES (Updated edition of SNiP 2.04.03-85)
- INTERNAL FIRE-PROOF WATER PIPELINE (Requirements fire safety)
- SOURCES OF EXTERNAL FIRE-FIGHTING WATER SUPPLY (Fire safety requirements)

Design documentation of water supply and sewerage networks and systems is carried out in accordance with Government Decree No. 87 Russian Federation.

Detailed documentation of networks and water supply and sewerage systems is carried out in accordance with and.

The procedure for developing design and working documentation

1) Receipt technical specifications;
2) Compilation terms of reference;
3) Conclusion of a design contract;
4) Development of design documentation;
5) Obtaining a positive expert opinion;
6) Development of working documentation;
7) Coordination of working documentation.

Cost of water supply and sewerage design

The cost of developing a water supply and sewerage project (project price) is always determined individually, depending on the labor intensity of developing project documentation.

Information for the development of design documentation for water supply and sewerage networks

Soil freezing depth in Moscow:

Freezing depth for loams and clays, m = 1.1 m
Freezing depth for sandy loam, fine and dusty sand, m = 1.3 m
Freezing depth for gravelly, large and medium-sized sands, m = 1.4 m
Freezing depth for coarse soils, m = 1.6 m

Minimum depth of water supply network:

The depth of the laid pipes, counting to the bottom, should be 0.5 m greater than the calculated depth of penetration into the ground at zero temperature.

The minimum depth of the water supply network depends on the type of soil at the installation site.
The recommended minimum depth for laying a water pipeline according to the requirements of Mosvodokanal is 2.4 m.

Minimum depth of the domestic and storm sewer network:

The minimum depth of laying a pipeline tray can be taken for pipes with a diameter of up to 500 mm - 0.3 m, and for pipes with a larger diameter - 0.5 m less than the greater depth of penetration into the ground at zero temperature, but not less than 0.7 m to the top of the pipe, counting away from the ground or level (to avoid damage by land transport).

The minimum depth of the sewer network depends on the type of soil at the installation site.
The recommended minimum depth of the sewerage network according to the requirements of Mosvodokanal is 1.7 m

Water consumption for external fire extinguishing:

Water consumption for external fire extinguishing is determined according to SP 8.13130.2009.

Water consumption for external fire extinguishing of the main urban water supply network in Moscow is 110 l/s
(according to SP 8.13130.2009 clause 5.1).

Water consumption for internal fire extinguishing:

Water consumption for internal fire extinguishing is determined according to SP 10.13130.2009.

Information on the procedure for issuing technical specifications and approving design documentation

The city water utility is responsible for issuing technical conditions for connection to the city utility system and operating utility networks and water supply and domestic sewerage structures.

When connecting private/state enterprises to the departmental water supply and sewerage network, issuing technical specifications for this type Connectivity deals with its own connected communications.

Project documentation is developed on the basis of the issued technical specifications and is subject to mandatory agreement with the organization that issued the technical specifications.

Project documentation is also subject to mandatory agreement with the owners land plots along the route of laying water supply and sewerage networks, with organizations responsible for the operation of the crossed communications, as well as other organizations responsible for compliance with construction and sanitary standards.

Our company offers a full range of services for the design of networks, systems and structures of water supply and sanitation. We provide the necessary architectural and engineering solutions of any complexity at any stage of design.

The start of the construction of structures and communications is preceded by the collection of certifying certificates and justifications necessary for construction. Permission to lay human life support services to the constructed building can be obtained from the following federal and municipal executive authorities:

• “MED”, JSC “MOESK”, “OEK” – connection to electricity;
• State Unitary Enterprise “Mosvodlkanal” and State Unitary Enterprise “Mosvodostok” – connection to water supply;
• State Unitary Enterprise "Mosgaz" - supplying gas to the premises;
• Department of Underground Structures of the State Unitary Enterprise "Mosgorgeotrest";
• Office of Urban Planning Regulation;
• GlavAPU;
• State Unitary Enterprise Moscow Metropolitan.

Also, when coordinating utilities, you should contact expert and operating city or local companies. If during the registration of documents with the constituent bodies there is a deviation from the plan and a discrepancy between the legal papers, then GENPRO will be able to resolve this issue. The company has in its structure a technical customer service, whose responsibilities include defending the rights and interests of investors regarding the design, obtaining permits and construction of buildings.

Why is approval of an engineering project necessary?

The design and development of a complex of life systems includes a permit for water supply, which consists of water intake units and wells, storage tanks, built-in water transfer and purification stations, main and distribution networks, and wells.

The complex of drainage devices and sewers is designed to drain all kinds of household, biological, chemical waste and rainwater. It is also possible to construct drainage networks that are used to destroy excess rainfall.

Cable lines are designed and connected to structures to use the transmission of certain electric current pulses. They are most often used in areas where it is impossible to create air routes. Heating a building and providing warm water is impossible without special networks operating through pipelines. They are mainline, centralized, decentralized and distribution. Gas and electricity supply, as well as coordination of a consolidated plan for utility networks, contributes to comfort and coziness in a future building or a newly restored facility.

Problems legal regulation issues of design, coordination and construction of utility networks. Issues of competence and conflict of interests of the parties.

Associate Professor, Candidate of Sciences

St. Petersburg State University

Postal address: 194295 St. Petersburg, Khudozhnikov Ave. 24/4/104

Formulation of the problem: IN major cities a situation arose when entire neighborhoods were built without taking into account the engineering preparation of the territory and newly built residential buildings found themselves without utility networks (electricity, heat, water, sewerage). Land plots were not reserved in the required quantity for the design of linear structures, or after the issuance of technical specifications by the owner of the networks, it turned out that it was not possible to pass a separate linear structure from the connection point to the facility being built due to the lack of a free corridor or the refusal of the owners (possessors) of land plots to approval of the route selection act. As a result, the developed project, due to discovered circumstances, had to be written off as a loss, and the terms of reference had to be sent for adjustment. The specificity of linear structures is their sufficient length and passage through a significant number of land plots. There is a need for a balance of interests in the issue of the relationship between the rights of land owners, designers of linear structures, and the state. The legal vacuum is filled with individual norms of federal laws, by-laws, laws of constituent entities of the Russian Federation, and business customs.

For the purposes of this article, under engineering networks (linear structures) refers to engineering and construction objects with technological devices that form a single whole or a complete functional unity, intended for the transportation of liquids, gases, energy transmission, and signals. Utility networks include water supply, sewer, heat, gas networks, outdoor lighting networks, cable lines, and main pipelines.

The Federal Law “On the transfer of land or land plots from one category to another” talks about roads, power lines, communication lines, oil, gas and other pipelines, railway lines and other similar structures. The Urban Planning Code understands such objects as engineering and technical support networks, power lines, communication lines, pipelines, car roads, railway lines.

The issue of coordinating the passage of utility networks with the owner of the land plot.

EXAMPLE: an agreement was concluded between the two for the provision of power connection services. Under this agreement, pay a percentage of the estimated cost of the agreement, perform a set of design, construction and installation works in accordance with the terms of connection and transfer the newly built equipment to the balance sheet. After the conclusion of the contract, an agreement with a subcontractor for the implementation of design and construction work and paid the advance. When designing an overhead line (OL), the most suitable construction route was determined, which passed through owned land plots. written requests with attached route plans to land owners. It was not possible to obtain approval for the construction of overhead lines from the land owner. After receiving an official refusal, the construction of the overhead line sent a notification regarding the need to adjust the connection conditions.

Ineffectiveness of the approval procedure:

Firstly, a state authority or local government body, the owner of a land plot, may refuse to approve the placement of linear structures on land plots for any, often completely unfounded reasons, since their list is not provided for by federal law.

Secondly, there is no procedure for resolving disputes and resolving disagreements when approving the passage of linear structures across land plots, which makes it impossible to establish priority in the construction and design of utility networks.

Thirdly, the process of preparation, coordination and approval of linear structures projects takes at least a year and is associated with large administrative, technical and material costs.

The issue of the relationship between the rights and interests of designers of linear structures when determining the priority of the passage of utility networks.

EXAMPLE: Based on technical specifications, two design organizations completed projects. The first is a project for the construction of overhead lines, the second is a project for water pipelines. Upon basic agreement in the department of underground structures of the KGA, a condition was prescribed to link the specified design materials with each other. The design of networks should be agreed upon with interested land users. The latter, having examined the presented projects of two completely different networks, agreed on their passage in the same corridor, which led to the overlap of some linear structures with others. The designers were not informed by the owner of the land plot of the existence of a conflict of interest. At the stage of final approval of the working draft, the question of priority arose. What is more significant for the country: the Program “Reconstruction and development of main sources of engineering support and main networks in the energy supply zone for 2005 - 2010” or the Program for the construction of water pipelines for St. Petersburg. People need water, just like electricity, but they have learned to sell water in bottles; energy is not yet sold in retail this way. The question of what to prefer: increasing the reliability of power supply to consumers or water supply was raised before the relevant committee of the Government of St. Petersburg. The arbiter in solving this problem, the Committee on Energy and Engineering Support (CE&E), expressed its unequivocal position. KEiO does not object to the construction of the overhead line. Based on the declared projects, a balance of interests was never found. State Unitary Enterprise Lengiproinzhproekt (LGIP), the general designer of water supply and sewerage schemes for St. Petersburg for the period up to 2025, represented by GIP, instead of searching for a compromise solution, offered the overhead line designer to pay a bill of 70,000 rubles. for the fact that the general designer of water supply schemes will deign to familiarize himself with the essence of the issue. Simplicity and at the same time specificity in matters of extorting money for initial data and approvals have always been distinctive feature formerly large design institutes. In fairness, it should be noted that any quality work must be paid. In practice, the situation can be illustrated by the following example. D In order to fulfill the technical specifications for the power supply of a residential building, it became necessary to obtain a plan for the passage of cable lines through the basement of a substation (SS). The PS project was developed by LGIP. Recognizing the existence of copyright in project documentation, one should pay for the right to use such documentation, but the project materials did not comply real situation business at the substation. Having purchased such documentation, it could not be used to complete the project and transfer the constructed cable line to the balance of the network owner. To summarize, it should be noted that the problem lies not in the law enforcement practice that allowed such a situation, but in people who, in their own way, interpret state and corporate interests.

The question of the relationship between the rights and interests of the designer of linear structures, the investor and the owner of the territory when determining the priority of the passage of utility networks.

The procedure for providing land plots for construction and reconstruction from lands in state or municipal ownership is determined by the Land Code of the Russian Federation, the Town Planning Code of the Russian Federation, Civil Code RF, Federal laws dated 01/01/2001 “On the state land cadastre”, dated 01/01/2001 “On land management” and by-laws. Based on Art. 2 of the Land Code of the Russian Federation, these relations are also regulated by laws and acts executive bodies authorities of the constituent entities of the Federation and acts of local governments. In the city on the Neva, the Law of St. Petersburg -43 “On the procedure for providing real estate objects owned by St. Petersburg for construction and reconstruction” (hereinafter referred to as the St. Petersburg Law No. 000-43), and the Decree of the Government of St. Petersburg “On approval of the regulations” are in force. on the procedure for making decisions on the provision of real estate for construction and reconstruction.”

In accordance with the St. Petersburg Law No. 000-43, targeted provision means the provision of real estate for construction (reconstruction) without holding a tender or if the tender is declared invalid. The targeted provision of real estate for construction (reconstruction) can be carried out by decision of the Government of St. Petersburg. The targeted provision of real estate for construction includes 2 stages:

· Provision of land for carrying out survey work in order to determine the possibility of placing a property.

· Provision of a land plot for the design and construction of a real estate project.

For more purpose of this article The targeted provision of land plots is carried out to persons who have the right, by virtue of civil law, to demand from St. Petersburg the conclusion of an agreement on the establishment of an easement for the laying and operation of power lines, communications and pipelines and other utilities that ensure the activities of the city economy.

If the site was not provided within the framework intended purpose for the design of linear structures, it is possible to establish an easement for the land plot through which utility networks will pass. The basis for this is the technical characteristics of linear structures, which in most cases do not lead to significant difficulties or impossibility for the owner to use his land plot. There is uncertainty regarding the ability of the owner of a linear structure to use a particular land plot for the purposes of construction and operation of relevant structures.

Practical example. As part of the construction of the energy center, a project for laying a heating network was completed, and approvals were obtained from the owner of the network, the committee for improvement and road maintenance. The district architect of the KGA refused to approve the project on the grounds that the linear structure falls under investment project, expected to be implemented in a few years. To a constructive proposal from the outside design organization to determine further actions in terms of obtaining approvals from interested land users, the architect referred to being very busy and refused to continue the dialogue. Similar questions posed to the head of the City Development Department (UZG KGA) found their understanding, and an algorithm for obtaining approval was prescribed. To determine the possibility of placing a heating network, it was necessary to obtain the approval of the organization that carried out the planning project and the land surveying project in the territory of this quarter. A written request to the specified organization was given appropriate approval when notifying the third organization about the implementation of the project. The third organization indicated in the letter was informed in writing and gave a written response that the project does not affect their interests because it does not pass through the territory that they occupy. In theory, the approval of the interested land user should ideally contain the following information:

1. name and details of the owner (legal owner)

2. determination of the agreed area, boundaries, location of utility networks

3. the period for which the consent was issued

4. must not contain additional conditions.

After receiving the approvals prescribed by the head of the UZG KGA, a repeated appeal was made to the district architect of the KGA. Another predictable refusal followed, the basis was banal personal interest in the execution job responsibilities, which in practice led to a conflict of interest. We can sum it up by articulating the position taken by the head of the Department of State Administration of the KGA. If an investor is interested in implementing an investment proposal, his interests should not be given priority in relation to the construction of a linear structure, since the latter is being built primarily in the interests of the city, and the investor in in this case has its own commercial interest and the Committee should not and does not have the right to protect the interests of a commercial organization.

Issues of competence and conflict of interests of the parties:

It’s probably not good when a philologist becomes an energy specialist; however, it is much worse when the architect does not know his specialty even within the scope of his job description. In the first case, in Russia a situation is possible where a representative of an energy company communicates with people from Morocco in French (while they are working on laying a 10 kV cable line). In the second, the incompetence of the district architect (civil servant) leads to a fear of making an informed decision on a particular project. The consequence of this, in a broad sense, is a violation of the interests of the state. In a narrower sense, such inaction conflicts with many of the duties of a civil servant listed in Article 15 of the Federal Law “On State Civil Service”, such as “maintaining the level of qualifications necessary for the proper performance of official duties.” In the practical work of a specialist from the Committee on Urban Planning and Architecture, there should not be typical situations when the decision to approve design documentation for the underground structures department is made within thirty minutes or more. Today, in matters of design and construction, we are faced with the fact that civil servants cannot solve the tasks assigned to them. The impotence of management is reinforced by obscene sayings addressed to subordinates who are unable to organize their work. A specialist in the field of design, be it a design engineer or an expert, must know the history generalized and systematized in SNiPs and others like them technical regulations, live in the present (be a practitioner) and predict the future (be able to foresee the consequences of decisions made by him and his colleagues). In design and construction, we must understand that when striving for systematization, there are no single solutions. They will always differ depending on the technical specifications or design specifications, geology, and surrounding buildings. This opinion can be illustrated by the example of the construction of transformer substations (TS). IN Soviet period, construction was carried out from those materials that were available, sometimes without a design, and if today this is not taken into account when carrying out reconstruction projects, then installing an electrical cable in the transformer substation will be difficult, if not impossible.

Formation of utility networks.

Regulatory basis: Federal Law dated January 1, 2001 “On state registration rights to real estate and transactions with it", Order of the GUION No. 42 dated 01.01.01 approving the Instructions on the procedure for preparing documents for technical inventory and technical accounting of linearly extended objects.

Utility networks can be formed in several ways:

· as a separate object real estate(as the main thing and (or) as belonging to the main thing);

· formation of a utility network as part of a complex real estate property.

Work on the formation of utility networks includes:

1. Preliminary familiarization with the design, executive and other documentation describing the utility network;

2. Determination of the formation method;

3. Preparation and approval of the formation project (if necessary);

4. Technical inventory, verification of characteristics, production of the final technical document for the facility.

5. Based on the results of the technical inventory and verification of the characteristics of utility networks, a technical passport is drawn up.

Production of documents describing linearly extended objects:

Statement and as attachments:

for individuals - identification documents;

legal entities - documents confirming legal capacity legal entity;

representatives of individuals and legal entities - documents confirming the existence of authority to represent the interests of an individual or legal entity in the GUION;

documents confirming the applicant’s rights in relation to the Engineering Network, or other documents confirming the right to apply for the production of documents describing the Engineering Network;

design and working documentation describing the utility network;

materials of geodetic control and executive survey of the Engineering network, carried out in accordance with SNiP 3.01.03-84 " Geodetic works in construction", SNiP "Engineering surveys for construction. Basic provisions", SNiP "Engineering and geodetic surveys for construction", including:

· plan of the Engineering network on a scale of 1:500 indicating turning and characteristic points with a stamp of acceptance of the work performed by the department of geological and geodetic service of the State Geological Survey of the KGA in accordance with the order of the mayor of St. Petersburg dated February 18, 1994 “On the procedure for carrying out topographic and geodetic work and engineering surveys in St. Petersburg", in paper and in electronic format;

· longitudinal profile of the Engineering Network indicating vertical breaks and indicating the absolute elevations and depths of the Engineering Network, and the distances between turning and characteristic points, in paper and electronic form;

· catalog of coordinates of turning points and characteristic points of the Utility network indicating the distances between them in paper and electronic form.

Order technical accounting Engineering networks:

The Design Inventory Bureau (PIB) produces a “Technical passport for a structure - a linearly extended object”, containing the following sections:

I. Situation plan

II. Information about the land plot

III. Total information, information about the name, purpose, documents on acceptance of the Engineering Network for operation;

IV. Utility network plan, made in a standard readable scale in accordance with the Symbols for topographic plans at scales 1:5000, 1:2000, 1:1000 and 1:500,

V. Longitudinal profile of the utility network indicating vertical breaks and designating the absolute elevations and depths of the Utility Network, and the distances between turning and characteristic points;

VI. Explication of utility network elements, which contains information about the name of the elements of the Engineering Network, their technical characteristics (year of construction, number of threads, material, diameter, pressure, length, supports, wells, valves, etc.) and characteristics of the area, linked to the numbers of sections in the section

· For water supply : wells with shut-off valves, emergency releases;

· For heating networks and hot water supply : carpets, expansion joints;

· For gas pipelines : carpets, siphons, control tubes, wells;

· For oil pipelines : wells, measuring tanks;

· For telephone network : distribution cabinets, connections;

· For power networks : kiosks,

VII. Calculation of replacement and actual cost The utility network is carried out based on data visual examination available elements of the utility network by calculation. If necessary, indicate the book value of the Utility Network with a note that this information indicated according to the Applicant.

As a conclusion on the essence of the issue of competence and conflict of interests of the parties during design and construction, it should be noted that there are no impossible things in the world. There are only things that are impossible for you personally - and temporarily impossible, if you approach them correctly. To achieve results in terms of completing the design and construction of utility networks, it is necessary to develop a legal position supported by project materials. In such a case, the grounds for refusal of approval will be eliminated or those persons (civil servants) who take a non-legal position in resolving the issue will be eliminated (as an example of job rotation in the structure of Rostechnadzor).

Engineering systems are located in any home. There is not a single modern building that does not have water supply, electricity, and sewerage. All utility networks are in demand and are often complex, and therefore require contact with design engineers who can carry out the design efficiently, reliably and with a guarantee engineering systems.

Design of internal engineering networks includes:

1. Water supply and sewerage project
2. HVAC project
3. Heating project
4. ITP or boiler room project
5. Power supply and lighting project
6. Projects of low-current systems (security and fire alarm, video surveillance systems, telephone installation, radio installation, clock installation, access control, LAN, automation and dispatch of engineering systems, Smart Home systems)

Design of external engineering networks

Competent design of external engineering networks is carried out taking into account all external factors which may affect the quality of work performed. The location of these networks depends on the needs of the building and on such conditions as the presence of current communications on the territory of the facility, neighboring houses, etc. The design of external utility networks, which is of particular importance for the future of the facility, ultimately determines the efficiency of using all external communications of the building.

Engineering projects are very important for construction, but the process of designing external and internal utility networks constitutes only part of the overall work.

Usually to eliminate design errors project documentation is being developed in several stages:

1. stage " Preliminary design»
2. "Project" stage
3. stage " Working Documentation»

Sketch Design is a preliminary design stage. This stage is not formally subject to approval from the authorities state supervision, but it performs no less important functions.

“Sketch design” is carried out with the aim of:

• urban planning justification for a new construction project,
• presentation of building facades and layouts,
• determining the attractiveness of a project from an investment point of view,
• determining the very possibility of new construction or reconstruction of a building or on a given site, taking into account environmental, social, economic and urban planning requirements.

Project documentation at the “Sketch Design” stage includes:

1. Explanatory note
2. Situation plan with surrounding areas
3. General plan
4. Transport scheme
5. Floor plans with explications of premises
6. Facades and sections of the building
7. Photomontage on the existing position
8. 3D visualization of the building

Project documentation at the “Sketch Design” stage is developed to obtain initial permitting documentation (IRD).

The “Project” stage is the approved stage of designing construction and reconstruction projects. Developed in strict accordance with current government regulations, standards and rules.

The composition of the sections of the project documentation is specified in Decree of the Government of the Russian Federation No. 87 of February 16, 2008. “On the composition of sections of project documentation and requirements for their content.”

Project documentation at the “Project” stage includes:

1. Explanatory note
2. Architectural solutions
3. Power supply system
4. Water supply system
5. Drainage system
6. Heating system
7. Gas supply system
8. Communication networks (television, telephone and radio installations, computer network)
9. Technological solutions
10. Environmental protection measures
11. Fire safety measures
12. Measures to ensure access for people with disabilities
13. Measures to ensure compliance with energy efficiency requirements and requirements for equipping buildings, structures and structures with metering devices for energy resources used
14. Additional sections:
    • CCTV
    • security alarm
    • fire extinguishing system

Project documentation at the “Project” stage is the basis for the development of “Working documentation”.

Project documentation at the “Project” stage is approved by state supervisory authorities.

The “Working documentation” stage is a set of documents that are necessary for construction and installation work.

Project documentation at the “Detailed Documentation” stage includes:

1. Explanatory note
2. Scheme of planning organization of a land plot
3. Architectural solutions
4. Constructive and space-planning solutions
5. Power supply system
6. Water supply system
7. Drainage system
8. Heating system
9. Ventilation and air conditioning system
10. Gas supply system
11. Communication networks (television, computer network, telephone and radio installations,)
12. Technological solutions
13. Construction organization project
14. Project for organizing work on demolition or dismantling of capital construction projects
15. Project of automatic fire alarm and warning people about fire
16. Additional sections:
    • CCTV
    • access control and management
    • automation (dispatching) of engineering systems
    • security alarm
    • fire extinguishing system
    • vertical transport (elevator)
17. Technical inspection of the condition of building structures of an existing building (during reconstruction work)
18. Project of on-site engineering networks
19. Off-site utility networks project

It is on the basis of design solutions developed at the “Detailed Documentation” stage that the construction of buildings and installation of utility networks is carried out.

Contact the GIP company, we will advise you free of charge if you have any questions by phone: +7 499 6772176 or by e-mail: [email protected]