PROJECTS

In the new building of the engineering center, the ducted ventilation and heating system was automated, and the dispatch station was installed on the roof. Systems control throughout the building is provided by the M580 controller; seasonal software has also been integrated to help eliminate the mistake of choosing the wrong action and reduce energy costs.

Benefits are:

Automation of heating and ventilation
Improving energy efficiency
Elimination of wrong actions

At this facility, the automation of the station itself was implemented and its power supply was reconditioned. Pumps with soft starters were installed to ensure energy efficient operation through slow power ramp-up.

Benefits are:

Integration of energy efficient equipment
Reduced energy costs

At this facility, 4 pumps operating in automatic mode, with a capacity of 1000 m³/day were installed. An energy-efficient APCS was integrated by means of frequency conversion, as well as seasonal software on the M241 PLC and an IDD for 2 inputs on the M221 with protection against counter currents. Temperature and air humidity sensors, electroacoustic level gauges that determine the water level were also installed.

Benefits are:

Improving the performance of the facility
Automation of technological processes
Integration of energy efficient equipment

This cluster is designed to receive goods, then compact, package and reload them from road transport to rail. Its full capacity is 1,000,000 tons/year. Due to the operating mode of production and the established productivity of the equipment, cargo delivery is carried out around the clock.

The centralized continuous monitoring of production machinery, and the reliability of the operation control was carried out at the facility; higher efficiency and accuracy of technological processes and their automated control at each stage have been achieved.

Benefits are:

Accurate operating procedures, which increase the efficiency of technological processes
Reducing operating costs by reduction of damage from accidents, by maintenance of more economical operating modes
Reducing electricity consumption by 30%

This plant is one of the largest water treatment facilities in Europe that provides reception and treatment of domestic and industrial wastewater from the North-West, West, South, South-East regions of Moscow (60% of the city's territory), the design capacity of which is 2,200,000 m³/day.

Benefits are:

Renovation of gas filtration and ventilation equipment
Automated monitoring of the operation and condition of ventilation units
Modernization of the dispatch control and management system
Implementation of emergency and warning alarm

A complex of automation of technological processes, of heating and ventilation systems was introduced at this facility. In addition automation of thermal and mechanical solutions, of energy supplies, of access control, of notification and evacuation management systems and of electric power equipment was carried out.

Reconstruction work was carried out at the existing facility where the fire and security alarms, video surveillance and outdoor lighting were designed and installed. The APCS fully complies with the requirements of AO “Mosvodokanal”, as well as the requirements of Urban Development Code of the Russian Federation.

Benefits are:

APCS performs the main functions of operational control
Automatic control of all units reducing energy costs by 30%
The highest indicators of protection and stable operation of the facility in emergency situations

The facility is designed for automated wastewater control and management, as well as the gathering and storage of a database of recorded data in real time, and its exchange with the existing dispatch center of the “PU VKH NAO” and “CDU AO “Mosvodokanal”.

Benefits are:

The capacity of the station is 6000 m³/day
Automation of high-quality wastewater treatment with sludge treatment
Calculation of operating time for uniform wear of equipment and ease of maintenance
Compliance with all requirements of SNiP and other standards

One of the largest treatment facilities in Europe, providing reception and treatment of domestic and industrial wastewater from the North-West, North-East and East regions of Moscow, as well as cities in the forest and parkland zones: Khimki, Dolgoprudniy, Mytischi, Balashikha, Reutovo, Zheleznodorozhniy, Lyubertsy.

Benefits are:

Automated control and management of technological processes
Guaranty of high-quality wastewater treatment
Formation and storage of a database of credentials in real time
Reliable, efficient and safe operation of production facilities
Improved calculation of operating time
Reduction in maintenance labor and costs
Prevention, detection and warning of emergency situations

At this facility, the automation of the station itself was implemented and its power supply was reconditioned. Pumps with soft starters were installed to ensure energy efficient operation through slow power ramp-up.

Benefits are:

Unmanned technology
Operational control functions
Reduction of power consumption

This industrial facility with round-the-clock operation is designed for pumping waste liquid. Its capacity is 170,000 m³/day.

Automation was carried out with the aim of increasing the operational and management efficiency, and control of technological processes, ensuring uninterrupted operation with the possibility of localizing emergency areas, equipment malfunction and obtaining operation performance data in the absence of personnel on duty.

Benefits are:

Automation of technological modes of operation of the sewage pumping station, of valve chamber and near-collector chamber
Equipment control in various operating modes of the station with “DP SENS”, “CDU”
Operational continuity and localization of emergency areas in the event of an emergency

At this facility with a capacity of 5000 m³/day a complex of automation of technological processes, heating and ventilation systems were implemented. As well as automation of thermal and mechanical solutions, energy supplies, access control, notification and evacuation management systems and electric power equipment was carried out.

Benefits are:

APCS performs the main functions of operational control
Automatic mode of unit control
Reduction of energy costs by 30%
Compliance with the requirements of AO “Mosvodokanal” and the Urban Development Code of the Russian Federation

The facility, located on the site of the Olympia park business center, is an underground reinforced concrete reservoir, divided into three sections. The capacity of this station is 3500 m³/day.

Benefits are:

Automatic mode operation of 4 pumps
APCS provides energy savings for the pump station
Maximum safety and operational control of all units

A complex of automation and dispatching of the control unit was introduced at this facility. With the help of the APCS, uninterrupted automatic control of the unit was ensured. Data about the operation of the unit is transmitted to the operator's workstation and to the dispatching office of the “SNS PU “Mosvodoprovod” and “CDU “Mosvodokanal”.

Benefits are:

APCS performs the main functions of operational control, the units are controlled in automatic mode without the participation of personnel
Guaranteed uptime, reliability and prompt information in the event of a threat of an accident
Fire threat detection system and television video surveillance system

This water treatment plant (WTP), carried out according to the standard design of biological treatment facilities, was put into operation in 1974. Due to the physical deterioration of the existing equipment and outdated treatment technology, the WTP was reconstructed in order to build new facilities, modernize and introduce automated treatment technologies to bring the quality of treated wastewater to concentration levels of standardized substances in water.

Benefits are:

Productivity of the facility is 10,000 m³/day
Automation of technological processes
Guaranteed uptime
Automation of operational control and management functions
Integration of energy efficient equipment
Unmanned technology that does not require the presence of personnel at the facility

This sewerage pumping station (SPS) is designed to supply domestic wastewater from the village of Pervomayskoye to the receiving chamber of the Ptichnoye treatment plant. The station capacity is 1500 m³/day. After the work carried out, the operating mode of the SPS became automatic, without the need for the constant presence of on-duty personnel. All data on the operation of the SPS is transmitted to the operator's panel.

Benefits are:

Two control modes: local from the remote control and automatic from control rooms
APCS with the ability to remotely monitor and control the main process equipment
Systems providing a high level of safety and trouble-free operation in the absence of on-duty personnel

At this facility modern automated wastewater treatment technologies were introduced to bring the quality of treated wastewater to the concentration levels of standardized substances in water. The uninterrupted operation of the plant was ensured, the automation of operational control and management functions were also ensured, and the unmanned technology was introduced at the facility.

Complete automation of the facility was carried out: automation of treatment facilities, of ventilation and of a heat point. Low-current systems were implemented, and perimeter security was installed – video surveillance, perimeter control with a motion detector (information about intrusion is transmitted to the dispatcher in Moscow in the Central Dispatch Center), the inclusion of security lighting in case of unauthorized penetration (lighting mast with LED lamps), the integration of photocells (they function only at night in automatic mode). Security alarms are installed on doors and windows, as well as fire alarms and an access control and management system.

Electricity was supplied from the city's transformer substation to the outlet; autonomous power supply is switched on automatically from a diesel generator.

Benefits are:

Automation of technological processes
Productivity of the facility is 1500 m³/day
Reduction of payroll costs by 100% due to unmanned technology
Energy costs saving
High security of the facility

This facility is under construction in the Troitskiy and Novomoskovskiy administrative areas, which includes water supply and drainage systems for the modular building of the new infectious diseases hospital. The design capacity of the plant is 15,000 m³/day.

Benefits are:

Implementation of low-current systems
Automation and dispatching of the technological processes
Automated control system for the entire complex of facilities

Reconstruction of this plant was carried out with the introduction of GRAIL technology (SBR reactors with granular activated sludge), based on the formation in the reactor of a special rapidly settling granular sludge containing all technologically important groups of bacteria, with the creation of conditions for maintaining such sludge in the reactor.

The APCS for wastewater treatment process control is designed for automated control and management of technological processes, the gathering and storage of a database of recorded data in real time, and its exchange with the existing dispatch center of the “PU VKH TyNAO” and “CDU AO “Mosvodokanal”.

Benefits are:

GRAIL biotechnology
Post-treatment on biofilters with floating loading Mutag BioChip
Automation of work with sludge treatment in accordance with the design parameters
Energy efficient solutions

This wastewater treatment plant (complex wastewater treatment facility) is located on an area of 11.2 hectares. It performs the task of mechanical and biological wastewater treatment with their subsequent additional treatment, disinfection and discharge into the Skhodnya River.

In connection with the formation of sludge on existing systems, a stage of mechanical dewatering was introduced in order to reduce the moisture content of the sludge to a value at which optimal conditions for transportation and disposal are provided.

Benefits are:

Improving the performance of the facility
Scheme for dewatering excess activated sludge
Round-the-clock and year-round mode of accident-free operation

This SPS carries out pumping of wastewater into a gravity sewer network. The facility is intended for sewerage of microdistricts 1 and 11 of Kurkino. Its capacity is 25,000 m³/day.

Benefits are:

Increasing the productivity of the station
Remote control in case of an emergency
The operation of the pumping equipment is carried out by the control software supplied with the control panel

For this facility, an automation project was developed, and the design of low-current engineering systems was implemented with the selection of reliable and economically viable solutions.

Benefits are:

Automation of technological processes
Guaranteed uptime and operational management
Reduction of energy consumption

The facility has implemented automation of technological processes with the design and installation of low-current engineering networks. Integrated energy-efficient equipment helps to reduce the cost of electricity consumption and to simplify the process of maintenance and repair.

Benefits are:

Automation of technological processes
Reduction of energy costs

At the facility, the automation of technological processes was carried out, low-current engineering networks were implemented, energy-efficient solutions were introduced to reduce the cost of electricity consumption, to simplify the process of servicing and repair.

Benefits are:

Automation of technological processes
Reduction of energy consumption by 30%
Prevention and protection against possible consequences of accidents

At the facility, automation of technological processes, design and installation of low-current engineering networks was implemented, energy-efficient solutions were introduced to reduce energy consumption costs, simplify the process of service maintenance and repair.

Benefits are:

Automation of technological processes
Reduction of energy consumption by 30%
Prevention and protection against possible consequences of accidents

At this facility, design work, gas monitoring and automation of the ventilation system were performed in accordance with the requirements of SNiP and other established norms in this area.

Benefits are:

Automation of the heating network section
Connection of a multimodal multifunctional transport hub

At the facility, work was carried out on the design and implementation of automation of the heating network section; remote control and management of equipment and lighting of the thermal chamber was provided using a telemechanics block box.

Benefits are:

Automation of the heating network section
Connection of a multimodal multifunctional transport hub

This drainage pumping station of the switching chamber of the heating network section No. 20 from “TETS-9” is located underground at a depth of 21 meters – it protects the chamber from flooding in case of bad weather. The facility has 4 pumps, and a pressure and temperature control system is integrated in the switching chamber at the heating network section. The sensor system, when turned on, selects equipment according to operating hours for even equipment wear and simplification of the maintenance process.

Benefits are:

Equipment productivity is 1500 m³/day
Automation of technological processes
Automation of pumping equipment

During the construction of the main heating line from the “RTS “Yuzhnoe Butovo” to the administrative and business center of the TyNAO, the heat supply chambers were automated, and the pressure and temperature control was applied. In the event of an emergency on the heating line, the shut-off and control valves are automatically closed to reduce the consequences of possible accidents. Pumping and ventilation equipment is set to automatic operation to ensure maximum efficiency.

Benefits are:

Automation of an individual heating point
Reduction of energy costs by 30%
Prevention and protection against possible consequences of accidents

At this facility, the construction of metering stations for storm and sewage effluents was implemented and an automatic monitoring and control device for telemetry was installed. Automation of dispatch control and management of sewage and storm drains was carried out, flow meters EKHO-R were installed to measure the amount of water in the flow.

Benefits are:

Automation of dispatch control and management
Closing of shut-off valves in automatic mode
Prevention and warning of emergencies, protection against possible consequences of accidents