As part of the project documentation “Automation and dispatch system for engineering systems. A garage for three boxes, a shed for special equipment,” dispatching of the building’s engineering systems is being developed.

On-site engineering networks, roads and other infrastructure facilities. Automation and dispatch system for engineering systems. Garage for three boxes, shed for special equipment.

1.2 Design documentation is developed on the basis of the following documents:

Agreement No. 2/TV-03/10024 for the implementation of design work with the branch of OJSC NIKIMT - Atomstroy TPII VNIIPIET dated February 8, 2010.

Design assignment “Capital construction projects on the territory of a special economic zone of technology-innovation type in Tomsk (section No. 2 in the Kuzovlevsky tract area). Automation and dispatch system for engineering systems" (Appendix A).

Terms of reference for the design of the section “Automation and dispatch system for engineering systems” of the planning project for a special economic zone of technical innovation type dated August 19, 2008 (Appendix B).

The concept of a dispatch control system for infrastructure facilities of special economic zones.

1.3 Project documentation has been developed in accordance with current norms, rules and standards that ensure the safe operation of facilities by maintenance personnel, subject to the measures provided for by the project.

Functionally, the AFIS System is a three-level hierarchical structure.

At the lower (field) level there are sensors, actuators, and automation equipment designed within the framework of engineering systems. At the lower level, data collection occurs.

At the middle level (controller) there are AFIS cabinets that perform the functions of collecting, processing and transmitting data.

The role of the upper level (human-machine interface level) is performed by Automated Workplaces (AWS) and server equipment located in the Central Dispatch Center (CDC). The central control center is a set of software and hardware designed to control and manage engineering systems of all infrastructure facilities of the TVT SEZ. The upper level is being developed within the framework of project 210-TV-03/10024-D-0007-ATX.

The network layer is implemented within a single data transmission network. Allows you to create a unified information space within the TVT SEZ, delivering information from the middle level of all objects to a single dispatch center. The network layer is being developed as part of a project carried out by Intant LLC.

In the building “Garage for three boxes, shed for special equipment,” the Automation and Dispatching of Engineering Systems (ADIS) system covers the following engineering systems:

Ventilation system;

Refrigeration (air conditioning) system;

Heating system (IHP);

Water supply system;

Sewage system;

Power supply system;

Gas control system;

Fire alarm system;

Security alarm system.

At the lower level, information about the state of engineering systems is collected from sensors, actuators, and automation equipment and transmitted to AFIS cabinets. The following data transfer interfaces are provided:

Digital signals via Ethernet and RS485 interface;

Analog signals 4-20 mA;

Discrete signals such as open collector or dry contact.

To transmit signals to AFIS cabinets, the project provides for cables of the appropriate brand, appropriate cross-section and required number of cores

At the middle level, discrete signals and analog signals of the 4-20 mA type are processed by a distributed input/output system and transmitted to the controller via Ethernet. Data received from engineering systems via RS485 and Ethernet are sent directly to the controller. All data from the AFIS cabinets is sent to the upper level to the central control center.

Data transfer from the middle level to the upper level is carried out through a unified data transmission network developed within the framework of the Intant LLC project. For this purpose, connection points are provided in the premises in which the dispatching facilities are located and a separate data transmission channel for the AFIS system is organized.

Information arriving at the upper level is processed in real time, recorded on the database server and history server, and presented in a form convenient for operator analysis on automated workstations and on a video wall.

The composition of the AFIS equipment is determined by the structure of the system (presented in Appendix 1), which is a distributed system for collecting and converting data with a single center for systems management and information processing, where the role of a distributed system is played by AFIS cabinets, and the central center is the data center.

The AFIS system of the building “Garage for three boxes, shed for special equipment” includes:

Cabinet AFIS-C1;

Cabinet AFIS-C2.

AFIS cabinets are built on the basis of programmable controllers with a distributed signal input/output system and the ability to process information transmitted via RS485 and Ethernet interfaces. This equipment allows you to build a system that has a modular open architecture. This ensures the autonomy of the functioning of various subsystems and the possibility of step-by-step modernization by replacing individual modules, and also provides the ability to quickly restore the system if any module fails.

AFIS cabinets include:

Data processing controller with eight RS485 ports;

Distributed data input/output modules (up to 512 discrete or 124 analog signals);

16-port Ethernet switch;

Uninterruptable power source.

The modular structure of AFIS cabinets allows you to increase the number of processed signals if it is necessary to connect new systems.

2.4.1 Ventilation system.

In the building “Garage for three boxes, shed for special equipment” a supply and exhaust ventilation system with mechanical drive will be installed. The project for automation and dispatch of engineering systems provides for the collection of data by the AFIS system:

From air handling units P1, P2, P3, P4 via Ethernet;

About the state of fire-retarding valves, discrete signals.

From exhaust ventilation control cabinets, discrete signals.

It is possible to turn on/off the supply and exhaust ventilation systems.

2.4.2 Refrigeration (air conditioning) system.

The project provides the ability to control and diagnose the air conditioning system. For this purpose, data exchange is organized with the group air conditioning system control controller via Ethernet.

2.4.3 Water supply system.

The building's water supply system is divided into:

Domestic and drinking water supply;

Hot water supply;

Fire water supply.

The organization of water supply in the building “Garage for three boxes, a shed for special equipment” is provided from the on-site network of drinking water supply. At the water metering units of the building, located in the water supply input unit, meters with pulse output and pressure and temperature sensors with a unified output signal of 4-20 mA are installed. Information from them is collected by the AFIS system. At the input of the water metering unit, a valve with an electric drive is installed, controlled by discrete signals from the control center.

For hot water supply, water is taken from the domestic drinking water supply system, heated in a heat exchanger and distributed to consumers. Temperature and pressure sensors with a unified 4-20 mA output signal are installed at all control points to transmit data to the AFIS system. The valves at the inlet and outlets of the hot water supply system are equipped with an electric drive controlled by discrete signals.

An electric valve is installed at the inlet of the fire-fighting water supply system. The AFIS system controls the position of the valve and its condition. Using a unified 4-20 mA signal, information about the pressure in the fire-fighting water supply is obtained from the pressure sensor.

2.4.4 Sewage system.

The project provides for monitoring the water level of sewerage by removing discrete signals from a level sensor. The sewerage system is equipped with an electric valve. The AFIS system receives signals about the state of the valve and controls the valve with discrete signals.

2.4.5 Heat supply system.

An individual heating point (IHP) has a weather compensator and a heat metering unit.

The weather compensator automatically regulates the water temperature in the heating network. The project for automation and dispatch of engineering systems provides for the collection of information from the weather compensator via the RS485 interface.

The building has a heat metering unit. Information about heat consumption from the heat meter is transmitted to the AFIS system via the industrial RS485 interface.

Data on temperature and pressure are taken by sensors with a unified output signal of 4-20 mA at the entrance to the ITP, at the output of the ITP, at heating outlets, at outlets for supply systems, at outlets for hot water supply. Electrically driven valves are installed on all branches, controlled by discrete signals from the central control center.

2.4.6 Power supply system.

Electricity metering in the building “Garage with three boxes, shed for special equipment” is carried out in the input cabinets and ATS cabinets located in the electrical panel room. Information is collected through three-phase electricity meters. Information is transferred via the RS485 interface.

The project provides for monitoring the presence of voltage at the input and output of ATS switchboards and input switchboards. The AFIS system controls the position of the machine (on/off) in all distribution boards. This information enters the AFIS cabinets in the form of discrete signals.

2.4.7 Gas control system.

The project provides the ability to collect discrete signals (“System failure”, “Power availability”, “Limit concentration”) about the state of the gas control system.

2.4.8 Fire alarm system.

The project provides the ability to collect discrete signals (“System failure”, “Fire”, “Fire extinguishing system activated”) about the state of the fire alarm system.

2.4.9 Security alarm system

The project provides the ability to collect discrete signals (“System failure”, “Alarm”, “Object on security”, “Object disarmed”) about the state of the security alarm system.

A detailed list of signals transmitted between the AFIS system and engineering systems is presented in Appendix 4 - List of signals.

The placement of the technical means of the AFIS system on the building plan “Garage with three boxes, a shed for special equipment” is presented in Appendix 2. Programmable logic controllers, input/output modules related to mid-level technical means are placed in closed AFIS wall-mounted and floor-mounted cabinets. The system cabinets are located in heated rooms of buildings with an ambient temperature from plus 5 to plus 40 ° C. The AFIS-G1 cabinet is located in the electrical room (003). The AFIS-G2 cabinet is located in the control unit (111).

The equipment of the AFIS system belongs to electrical receivers of the first category.

The power supply for the technical equipment of the AFIS system (cabinets, servers, automated workstations) is carried out from an alternating current network with a phase voltage of 220 V ±10%, 50 Hz ±1%. Any voltage deviations within the specified limits do not cause the issuance of false commands and signals.

For uninterrupted power supply of technical equipment of the AFIS system, uninterruptible power supplies and batteries are used.

In the absence of the main supply voltage, the uninterruptible power supply is automatically turned on, at the same time a signal is issued to the controller, which transmits it via a communication channel to the control center at the dispatcher's workstation.

All metal parts of products accessible to touch, which may be energized above 25 V AC (rms value) or above 60 V DC (rectified) as a result of insulation damage, must be grounded. They must be connected to the grounded neutral point of the power source via a protective conductor (GOST R 50571.3-94).

The cabinet housings of the AFIS system are grounded with copper conductors to the grounding loop of the building.

Cable screens are grounded only on the side of the AFIS system cabinets to avoid the formation of noise propagation loops.

The scope of the project for automation and dispatch of engineering systems includes the following cables:

Control cables from engineering systems to AFIS cabinets;

Power cables from machines to AFIS cabinets;

Ethernet cables from cabinets to the nearest access point.

All electrical wiring is made with cables with copper conductors.

For Ethernet communication lines, a cable type FTP4-C5E-SOLID-GY 4x2x0.54 is provided.

For the industrial RS485 interface, a KIPvEP 2x2x0.78 cable is provided

KVVGEng nx1.0 and KVVGng nx1.0 are provided as a control cable for transmitting discrete signals.

For analog signals, a KVVGEng 4x1.0 cable is provided.

For 220 V power lines, a KVVGng 4x2.5 cable is provided.

Electrical wiring in the building “Garage for three boxes, shed for special equipment” is made under the suspended ceiling in metal trays and along the walls in plastic boxes.

This section is dedicated to projects dispatch systems and automation of building engineering systems. This section presents the software and hardware that InSAT supplies for such systems, as well as the services that InSAT can provide for their development and implementation.

To create systems automation and dispatching of building engineering systems InSAT company offers MasterSCADA - one of the leading products on the Russian market. This is a vertically integrated and object-oriented software package for the development of control and dispatch systems.

MasterSCADA has a number of specialized tools for building automation:

• for ventilation and air conditioning systems (HVAC) - specialized library of the VFB
• for building resource accounting systems - a set of drivers for common metering devices

Below are examples of projects implemented on MasterSCADA. The set of examples is not exhaustive. MasterSCADA's bucket list already includes many thousands of systems that successfully operate in the CIS. Detailed description MasterSCADA presented in section Software .

InSAT company supplies a wide range equipment for automation and dispatching of building engineering systems. Most of the examples below use hardware supplied by InSAT. Detailed information about the range and cost of the equipment we offer for dispatch and energy metering systems can be obtained in the section Equipment .

Engineering in the field of dispatching and automation of buildings

The InSAT company has extensive experience in the design and implementation of such systems, developed integrated solutions, ready-made designs of metering units, control cabinets for air handling units, etc. We can perform the full range of work on the development and implementation of building management and dispatch systems. The list of services provided can be found in the section Engineering .

Examples of building automation projects completed on MasterSCADA

Today, MasterSCADA is used in a huge number of automation and dispatch projects for building engineering systems. Here are just a few examples of such projects.

The process of dispatching engineering systems allows you to maintain their performance and increase the efficiency of energy use. Thanks to operational monitoring of the condition of engineering systems and timely response to changes in the operation of systems and equipment, it is possible to effectively make management decisions and prevent possible failures. Modern engineering systems are complex, integrated systems, the normal functioning of which requires automated dispatch systems.

An automated dispatch system allows you to take into account energy resources, normalize their consumption, and adjust the operation of equipment taking into account external conditions. Thus, the client can save a significant share of financial resources and use it for business development.

Objects:

Automated dispatch systems are suitable for industrial enterprises, data centers, business centers, hypermarkets, hotels and residential buildings, and are also necessary for all facilities that have increased requirements for safety and ensuring the uninterrupted operation of engineering systems.

Dispatch tasks:

• ensuring accounting of energy consumption, timely monitoring of the condition of the facility;
• providing a tool for managing equipment parameters;
• providing data analysis to develop measures aimed at improving energy efficiency.

Solution of the company GC Hited:

Channels of connection:

Ethernet, GSM, RS485/422, GPRS/EDGE/3G, Wi-Fi.

Equipment used:

Instruments that record water, heat, electricity, gas; equipment for power quality control; shut-off valves; control units for process equipment, industrial controllers, sensors for measuring the exact parameters of automation objects, as well as security and control equipment for the object as a whole.

The main functions of the RedPine software package for dispatching engineering systems:

Resource efficiency

Accounting for resource consumption

Using the RedPine software and analytical complex, you can ensure effective management of energy costs. RedPine features advanced functionality in the field of resource accounting, which allows you to plan energy costs.
Thanks to consumption reports, you can analyze and select the optimal tariffs for settlements with energy suppliers, while significantly reducing energy costs. Experience in implementing energy accounting systems shows that average savings are about 10% of planned costs.
Significant results can be achieved in reducing energy costs. To make energy management as efficient as possible, RedPine has built-in reports on half-hour power and support for multi-tariff metering.

Resource consumption analysis

RedPine allows you to analyze resource consumption with detail by characteristics (time, equipment, type of object). This makes it possible to normalize resource consumption by various objects and control the efficiency of equipment use. Such analysis also helps to track cases of leakage and unauthorized consumption of resources.

Unified dispatch system for all engineering systems

Unified management of engineering infrastructures (power supply, heating, ventilation, air conditioning, etc.) makes it possible to increase the efficiency of their joint work and reduce overall energy consumption.
Dispatch systems based on the RedPine complex can include almost all types of utility networks to create a single facility dispatch center. This allows you to reduce the costs of implementation, support and operation of systems.

Reliability and safety

Fire and security alarm monitoring

To ensure comprehensive security of a facility, it is necessary to monitor not only the performance of equipment and the condition of utility networks, but also monitoring the condition of systems responsible for the overall safety of the facility. Such systems include fire and security alarms and access control. With the help of RedPine, access to the facility is controlled, as well as notification of events recorded by the fire and security alarm system. If communication channels have sufficient technical capabilities, it is possible to organize video surveillance.

The RedPine data archiving mechanism allows you to store instrument readings, monitoring results, as well as a log of emergency events for a long time, while the data is available for analysis at any time.

Backup mechanisms are guaranteed to save important data in RedPine. This function allows you to restore the system after a failure in a matter of minutes.

Engineering systems are an important element in the life of enterprises, so any mistake can be very expensive. To prevent the risk of unauthorized manipulations and increase the responsibility of employees, logging of all dispatcher actions has been created. Different categories of users have specific access rights. To make the administration process easier, you can use built-in Windows mechanisms.

Alarm and information display

Displaying parameters of dispatch systems in real time

Information about the main indicators of the system appears on the dispatcher screen in real time. If these indicators go beyond user-defined limits, the operator will be notified via color and sound alarms.

Trends

The “trends” tool is convenient because it allows you to monitor changes in system parameters over time, this helps prevent emergency situations. The digital dashboard tool is designed to display several trends at once on the dispatcher screen.

Mnemonic diagram of the object

The object can be controlled and dispatched using an interactive mimic diagram, which displays the necessary parameters and controls in an intuitive form. Mnemonic diagrams can be drawn up both for individual objects and for systems as a whole, which makes it possible to assess the general state of the system.

Monitoring and management of engineering dispatch systems

Equipment management

Dispatching systems created using RedPine have a range of tools for managing a fleet of equipment. For example, health reports help identify engineering equipment that is prone to frequent breakdowns and replace it.

This module is necessary to coordinate the work of repair teams. For each emergency message or consumer request, an incident is created. The repair team receives an SMS message indicating the need for work. Each stage is confirmed by SMS message or through a special Java application. This effective dispatch system tool allows you to control the timing and quality of work, while reducing the cost of operating personnel.

IS Ecolife is ready to perform work on automation and dispatch of engineering systems for your facility. At the same time, we both design and implement intelligent solutions for objects of various purposes: residential and office buildings, cafes and restaurants, shops and supermarkets, public and administrative buildings.

In addition, IS Ecolife performs one-time and periodic maintenance of automation and dispatch systems, as well as their ongoing repairs and, if necessary, diagnostics and troubleshooting.
You can call us, order a call or leave a request.
Our manager will definitely contact you and answer all your questions.

OUR SERVICES

Automation ventilation	Boiler automation and boiler room	Automatic fire alarm	Security signaling

An engineer’s visit to calculate the cost of work is free of charge.

Automation and dispatching of engineering systems

Automation and dispatching allow you to build once and literally forget about the existence of engineering systems. Without automation, any of the subsystems would present more problems than comfort, since it would require constant and careful attention to its work.

Has the desired temperature been reached? Will the water in the heater freeze? Is the tank full? Will the air heater burn out? Is there a flow of water? Is the pressure normal? Is there tension? Which sensor triggered? And this is not a complete list of questions that the automation and dispatch system provides answers to.

The complexity and cost of such systems depends on their level of intelligence and the number of functions they perform. However, any automation system must perform basic functions, which in relation to, for example, ventilation and air conditioning systems, are the following:

Monitoring and control of the operation of units included in the equipment of ventilation and air conditioning systems,
- Control of valves and dampers,
- Ensuring safety: blocking the heater in the absence of air movement, protection against freezing of the water heater,
- Protection of equipment from overheating, short circuit, incorrect connection,
- Indication of the status of operating equipment,
- Performance regulation,
- Centralized temperature control in all rooms,
- Implementation of a temporary control algorithm (daily/seasonal/annual) without the intervention of maintenance personnel.

In addition, automation is mandatory for heating systems, is very popular in electric lighting systems, and can also be introduced into power supply, security, etc. systems.

Automation and dispatching are numbers 1 and 2 in the list of principles for the design and construction of modern engineering systems. On the one hand, technology strives to ensure that networks operate with minimal human intervention - as they say, build, launch and forget. On the other hand, the customer sets the task of ensuring the most reliable control of the processes occurring in the network throughout its entire length.

In the event of changes in system parameters and various emergency situations, a signal about this should immediately be sent to the control center, where automation or a human operator will make a prompt decision. So, if the pressure in the water supply drops, the automation must immediately turn off the emergency section. If there is a danger of melting the heating element, turn off the incoming voltage or reduce the current.

In addition, commands must be issued as quickly as possible from the control center to change the parameters of individual sections of networks or the entire network in the event of changes in external conditions. For example, when the air temperature in a heated house decreases, the boiler power automatically increases. If the incoming voltage drops in the external electrical network, stabilizers, uninterruptible power supplies, and, if necessary, an autonomous generator or other backup line come into operation.

Automated control of building engineering systems is carried out on the basis of industrial controllers. The main advantage of controllers is their functionality and unification, that is, the same controller can control any engineering system.
Depending on the connection of the required sensors to any engineering system, the engineer selects a controller suitable for the number of digital and analog inputs and outputs.

After completing all the work on selecting controllers, sensors, and other necessary elements, laying communication lines, the programmer begins visualizing and programming processes directly on the computer. Programming and visualization of processes are carried out in the so-called SCADA system, which is represented by various computer programs depending on the manufacturer of the equipment and the data transfer interface.

Examples of automation of household and industrial systems

Ecolife Engineering Systems company has significant experience in the design, installation, commissioning and maintenance of engineering systems of any complexity, length and location. We work with a variety of environments:

Water (automation of water supply, heat supply and heating systems);
- air and gas-air mixtures (automation of ventilation and air conditioning systems);
- various industrial liquids and liquid fuels;
- intangible objects - electricity, light, radio waves.

Our engineers and installers carry out professional installation and commissioning of auxiliary automated systems - fire extinguishing, security and fire alarms, remote access control, interior and façade lighting.

In all cases, the emphasis is on maximum system autonomy. For automatic lighting control timers are used, configured taking into account the calendar length of day and night, photocells that record the natural illumination of a room or area, motion sensors configured to move objects of a given mass and size.

Control of the perimeter or internal volume is carried out by electromagnetic sensors that record the crossing of a conventional boundary or movement within it.

A fire signal is given by devices that analyze the state of the atmosphere and the ambient temperature. The smoke analyzer, having detected particles or molecules of combustion products in the surrounding space, simultaneously sends a signal to the central control center and activates local fire-fighting means. The automation reacts in the same way in the event of a sharp increase in the temperature of the air or surrounding objects.

As we have already indicated above, automation is needed not only for emergency response in the event of a fire, flood or intruders entering a facility, but also to resolve completely normal situations related to changes in the degree of load on the network. For example, in industrial production conditions operating in one or two shifts automation of power supply systems will allow, without human intervention, to increase the power supply capacity of the facility every morning, and to reduce it every evening. Our specialists will quickly and professionally install the necessary equipment, which will help optimize energy consumption and reduce current payments to resource supply organizations.

Building and network management systems

The larger the facility on which automated engineering systems are installed, the more important the role of their dispatching is - that is, remote control and management of engineering systems and notification of all processes occurring in the system. In a large building or structure, where pipes, air ducts, power cables and SCS have a length of tens and hundreds of kilometers, and the accessibility of many nodes and sections is very difficult for technical and design reasons, the presence of a workable end-to-end monitoring system comes to the fore.

Dispatch concerns two main parameters - the state of the media moving through engineering systems and the state of the engineering systems themselves.

To measure the parameters of the contents of networks, sensors of temperature, pressure, density, viscosity, direction and speed of movement, and chemical analyzers are used. System status sensors respond to the appearance of cracks, ruptures, corrosion, mechanical damage to shut-off valves and connecting elements, blockages, deposits of salts or oxides on the walls of pipes and other negative changes that can affect the effective operation of the engineering structure and jeopardize the safety of the facility. In the case of power supply systems, measuring equipment records the current voltage and current, an abnormal increase in resistance in certain sections of the network, which leads to increased energy consumption and overheating of cables, which in turn can cause a short circuit or fire. If we are talking about a production facility with several sections that consume a large amount of industrial current, then competent dispatching of the system will allow rational distribution of loads, thus saving energy and preventing excessive load on one line compared to others.

Automation of ventilation and air conditioning systems

Ventilation in modern buildings is represented by a supply and exhaust ventilation system with heat recovery in winter. This system provides for the installation of a number of sensors: temperature sensor of incoming outside air, temperature sensor of air leaving the atmosphere, temperature sensor of the air heater discharge pipe, temperature sensor of the air stream emanating from the building, room temperature sensor, pressure and air velocity sensor in the air duct. It is also necessary to monitor the operating mode of the injection (supply) and exhaust fans, the condition of the recuperator, the clogging of air duct filters and other parameters. To control and promptly regulate all these system parameters, automated control systems based on industrial controllers are used.

In commercial buildings (shopping, entertainment centers, restaurants, airports, etc.) there is a need for centralized control of split systems or a set of systems with a chiller-fan coil. Management can be carried out on the basis of an industrial controller with a supervisory control system.

Dispatch and automation of ventilation and air conditioning systems in a large office center will also save costs on operating systems by taking into account factors such as temperature and humidity in the room and outside the window, the number of people working in the premises, and insolation of the building. A modern automatic climate control program can save up to 50% of energy compared to a typical situation where all air conditioners in a building are turned on at full power in the summer. In addition to financial benefits, optimization in terms of climate will help avoid personnel losses - after all, it is well known that uncontrolled operation of air conditioners and climate systems is the main cause of colds in the summer.

Our company’s engineers will perform the necessary calculations of the ventilation and air conditioning system, install automation equipment and, together with the company’s programmers, set up the system in the shortest possible time.

Automation of alarm systems

Competent alarm system dispatching- guarantee of the safety of any object. ECOLIFE company professionals are ready to carry out complex installation of security systems of any level of complexity. We work with perimeter alarms, protection of the internal space of open areas and enclosed spaces, protection of specific objects intended for storing inventory or playing another important role (safes, storage rooms, storerooms, archives, weapons rooms, control and communication points, etc.). d.).

Reliable dispatch is most important when installing perimeter security systems, which can extend for tens of kilometers. More than ten types of alarms have been invented in the world, but they all operate on the same principle: as a result of an attempt to penetrate the perimeter (or even when approaching a conventional line), a certain electrical circuit opens (or vice versa closes), resulting in an alarm signal being sent to the control center . In modern security systems, penetration can also cause other forms of reaction - turning on emergency lighting, video recording and photo recording systems, warning sirens, blocking exits, etc. By turning to ECOLIFE Group specialists for help, you can make your property virtually invulnerable to all forms of ill-wishers and intruders.

Automation of heating and heat supply systems. Boiler room dispatching

Our interests extend not only to large industrial facilities that provide large volumes of design, installation, commissioning and service work. With the same responsibility, we are ready to automate and dispatch engineering systems at low-rise construction sites.

Many owners of cottages and summer houses strive to equip their homes with the latest technology, without initially thinking about the cost of operating the systems. Meanwhile, our experience shows that proper placement and configuration of networks will make their operation not only convenient, but also economically profitable.

In a small country house this applies primarily dispatching of the boiler room and heating point, which will allow you to efficiently spend natural gas or other fuel and maintain an optimal energy balance at home using an autonomous heating system.

IS Ecolife specializes in automation of all types of heating of residential buildings and other premises.
Temperature sensors are used to automate the room heating process. At the request of the client, a temperature control method is selected taking into account the optimality criterion. To set the necessary system operating parameters, control panels are used, which, together with sensors and servos, are connected to the controller.

Optimizing heat in residential buildings has been a trend in developed countries for the past decade and a half. It is gradually beginning to gain popularity in Russia, although our climatic conditions are objectively more difficult than in Europe, where the philosophy of internal energy efficiency was originally born. It is curious that in English such a house is called a passive house.

In Russia, with its sharply continental climate, it is hardly possible to do without heating and build a completely “passive house”. But by setting up proper accounting of heat consumption, using effective insulating materials and controlled heating systems, you can minimize fuel consumption, and therefore material costs and harm to the environment.

Boiler room dispatching with the help of IS ECOLIFE specialists - the most important part of the autonomous heating system for a home. Often, boilers are installed directly in basements and plinths, but from the point of view of fire safety and the environment, it is better to do this in a separate structure. Heat loss when supplying hot water from the boiler room to the house is insignificant when high-quality insulation is installed.

Having established remote control over the operation of the boiler room, the owner of the house can directly from the office control fuel consumption, steam pressure in the heat exchanger, water temperature in the circuits, percentage of mixture combustion and other parameters. Information comes both from a variety of sensors and visually, using video cameras. Telemetry information can be transmitted over wires and wireless communication channels (bluetooth, Wi-Fi, radio). Dispatching can also be organized at remote sites, controlling, for example, the operation of a boiler room in a country house from a city apartment, office, or simply from a mobile phone, being on the other side of the globe. Modern mobile and information technologies provide unlimited possibilities for organizing both control center on site, and a virtual control room on the World Wide Web.

Five advantages of working with IS ECOLIFE

By ordering services for automation and dispatch of engineering systems from the ECOLIFE company, you can safely count on the following competitive advantages:

1. The highest professionalism and many years of experience of our specialists, always focused on results and accustomed to unconventional methods of solving the most complex technical problems.
2. Equipping with innovative equipment, modern tools, and latest generation materials.
3. Focus on digital technologies and achievements of the global IT industry.
4. Rationality and ability to adapt to any situation. If we see that a good old relay can successfully replace an expensive electronic heat exchange system control module at the current stage, we will never insist on excessive spending and will offer our client all options for completing the system. The well-being of our customers is ultimately our well-being.
5. A universal approach to the design, implementation and implementation of projects. Our specialists are ready to carry out both a small cottage automation project and dispatching of heating points apartment building, and comprehensive automation of utility networks of a shopping center or industrial building. The volume of work never frightens us; on the contrary, it serves as an incentive for our specialists to reveal all the facets of their knowledge and talents.

Automation and dispatching of buildings

Residential and industrial buildings today cannot exist without engineering systems. And they are controlled using modern automation. The NHTA company is ready to provide a full range of services in this area. If you need automation of engineering systems, contact us. We will offer many effective solutions based on the latest technologies. This will ensure a high level of system controllability.

Complex automation and dispatching of buildings

To improve the operating comfort of various buildings, various types of engineering infrastructure are installed in them: ventilation, heating, air conditioning, fire safety and alarm systems. And to improve the efficiency of equipment, sooner or later the question arises of combining all networks into a single whole. And to ensure a high level of reliability, automation of building engineering systems is being introduced.

In the absence of automation, any engineering system requires constant and close attention to its operation. Therefore, the introduction of automation has a number of advantages. These include:

• service mobility;
• reduction of operating costs;
• reduction in energy consumption;
• optimization of all work processes.

Automation of engineering systems also helps control the level of safety and reduces the risk of accidents. This happens by minimizing the influence of the human factor and more quickly responding to changes. All this allows you to adjust work processes in a timely manner.

We invite you to cooperation

Having extensive experience in this field, the NHTA company can offer high-quality and reliable equipment for complex automation and dispatching. All equipment offered to you:

• fully complies with existing standards in this area;
• has all the necessary certificates.

If you need automation of building engineering systems, then the best option would be to contact us. We will create an optimal project taking into account the individual characteristics of the facility, help you select the optimal equipment and perform installation. Competent specialists will provide you with comprehensive information on all issues of interest and provide the necessary support. Cooperation with us will be comfortable and profitable.