Category: our-projects

(of the State Agency of Water Resources of Ukraine)

• Acoustic Doppler current profiler RiverRay ADCP (600VBR) delivered

State Enterprise State City Design Institute “Mistoproekt”

• A 1:2000 topographic plan of the Storozhynets city with an area of 2,600 hectares, Chernivtsi region, was created.

Department of Urban Development, Land Management and Communal Property of the Biliaivka City Council

• Orthophotomaps and a digital model of relief of the Biliaivka city, Maiory village and Povstanske village with the area of 1911.56 ha of Biliaivka united territorial community of Odessa region were created.

PROF GROUP LLC

• Engineering and geodetic surveys were carried out within the framework of the project on “Major repair of the local public road O071305 Drahovo-Sokyrnytsia km 0+000-16+500”. The topographic and geodetic works were carried out for road O071305 along the following settlements: Drahovo, Zolotarovo, Danylovo, Krainykovo and Sokyrnytsia of Khust district of Transcarpathian region. As a result of the works performed, a 1:500 Topographic Plan for road O071305 with a total length of 16,500 m was created.

ZOI ENVIRONMENT NETWORK

• Designing, construction and installation works, equipment supply and start-up and adjustment works were executed. The automatic hydrological monitoring system was implemented at 2 hydrological stations in Ivano-Frankivsk and Ternopil regions.

OSCE Project Coordinator in Ukraine

(Organization for Security and Cooperation in Europe)

• Designing, construction and installation works, equipment supply and start-up and adjustment works were executed. The automatic hydrometeorologicalmonitoring system was implemented at 3 hydrometeorological stations in Lviv region;
• An acoustic Doppler current profiler was delivered for the Hydrometeorological Service of Moldova.

Chernivtsi Regional Hydrometeorological Center

(of the State Emergency Management Agency of Ukraine)

• Borehole geometry tool was delivered; start-up and adjustment work and personnel training on the use of equipment were performed. The implemented equipment provides high-precision measurement of water flow parameters.

(of the State Agency for Water Resources of Ukraine)

• A set of construction and installation works (construction of new and reconstruction of existing gauging stations, construction of 0.4 kV power lines, strengthening of shore and supports with gabions). The automatic hydrometeorological monitoring system was implemented at 24 hydrometeorological stations (level gauges, precipitation gauges and cable crossings) in Chernivtsi and Ivano-Frankivsk regions;
• BKC-FloodMonitoring information and analytical system for predicting and assessing flood risks was developed and implemented. The system allows to carry out fast monitoring of the hydrometeorological situation, precipitation forecasting, modeling of flood scenarios, assessment of risks for infrastructure and population;
• A car-based mobile hydrochemical laboratory was designed and implemented for fast response to accidental pollution and for conducting periodic observations on the chemical composition of ground and surface water;
• A network of the emergency broadcast system was created in 7 settlements of Chernivtsi and Ivano-Frankivsk regions;
• A security alarm system was installed in 24 hydrometeorological stations and in the control rooms;
• A research of the archive database of meteorological observations in the rivers Prut and Siret was carried out and a database for calibration and verification of the components of the modeling subsystems was created;
• A set of works on the improvement of 14 hydrometeorological stations was completed (shore protection works were carried out, passive ventilation and lighting were installed at the stations, self-contained power supply systems were mounted);
• 5 hydrological stations in Chernivtsi region were automated;
• Construction and installation works were carried out and a network of 8 hydrometeorological stations in Chernivtsi and Ivano-Frankivsk regions was implemented;
• The emergency broadcast system was expanded in 17 settlements of Chernivtsi and Ivano-Frankivsk regions;
• The GIS system was updated and possible risk maps were modeled;

Training was conducted for the personnel of the Department of Automatic Hydrometeorological Monitoring System and BKC-FloodMonitoring.

(operator of all operating nuclear power plants in Ukraine)

South-Ukraine NPP (Oleksandrivsk HPP and Tashlyk PSP)

• Working documentation on the implementation of the Construction Emergency Early Detection and Broadcast System was developed.

Khmelnytsk NPP

• A working project on the arrangement of 5 wells and points of registration of the seismological monitoring system at the plant site was developed;
• A set of construction, assembling and drilling works on the arrangement of 5 wells and points of registration of the seismological monitoring system was completed.

Rivne NPP

• A set of construction, assembling and drilling works on the arrangement of 5 wells and points of registration of the seismological monitoring system was completed;

A seismological monitoring system was implemented at the plant site (5 monitoring posts with a monitoring radius of up to 150 km were automated).

Sophiya Kyivska National Conservation Area

(Ukraine’s national architectural conservation area)

• A project on creation of a complex monitoring system on the territory and objects of the immovable cultural heritage was developed.

 

 

Ukrainian State Research and Design Institute “UKRNDIPROEKTRESTAVRATSIYA”

(of the Ministry of Regional Development, Construction and Housing and Communal Services of Ukraine)

• A project on creation of a complex automated monitoring system of the Khotynska Fortetsia state architectural conservation area was developed.

(Ukraine’s largest engineering company in the field of hydropower and water engineering)

• Database of instrumental control for the analysis of construction condition in the Dnipro and Dniester cascades of the HPP/HPSPP was prepared;
• General databases of manual and automated measurements in the Kyiv, Kakhovka and Kremenchuk HPPs were created;
• Working documentation for the expansion and improvement of the system’s functions (automated construction condition monitoring system) at the Dniester HPSPP was developed;
• The set of works on improvement of automated construction condition monitoring system of the Kyiv, Kakhovka and Kremenchuk HPPs was completed;
• Working documentation “Reconstruction of the core of the left-bank and right-bank composite-type rock-fill dams. Project works on dismantling and restoration of existing automated construction condition diagnostic monitoring system at Dniester HPP-1” was developed;
• Automated construction condition diagnostic monitoring system Operation Guidelines were developed for Kakhovka and Kaniv HPPs;
• A comprehensive study of the current construction condition of the Kyiv, Kremenchuk and Kakhovka HPPs was carried out in order to increase their reliability and operation safety in project modes, taking into account the current requirements for safety and reliable operation of hydraulic units. The automated construction condition monitoring system databases were copied and pre-processed. Preparation of data for analyzing the construction condition and their comparing with the results of manual measurements were carried out;
• Working documentation on locating technical equipment, laying automated construction condition monitoring system cable lines and methodological support of the Dniester HPSPP was developed;
• Working documentation on Automated construction condition monitoring system, Geotechnical Monitoring System, Seismometric Monitoring System and Seismic Monitoring System of the Dniester HPSPP was developed.

Samruk-Energy JSC(state holding on management of electric energy assets in the Republic of Kazakhstan)

Ust-Kamenogorsk HPP

• Project documentation for automated construction condition diagnostic monitoring system was developed;
• Engineering and consulting services for implementation of automated construction condition diagnostic monitoring system were provided;
• “Titan” automated construction condition diagnostic monitoring system was implemented (485 control points were automated, 49 multiplexers, 10 local data concentrators and “Titan” software were installed).

Shulbinsk HPP

• Project documentation for automated construction condition diagnostic monitoring system was developed;
• Engineering and consulting services for implementation of automated construction condition diagnostic monitoring system were provided;
• “Titan” automated construction condition diagnostic monitoring system was implemented (198 control points were automated, 8 multiplexers, 7 local data concentrators and Titan software were installed).

Kazhidro LLC(member of the Hydroproject Association and the Union of Energy Engineers of Kazakhstan)

Cascade of HPPs on the river Shelek

• Project documentation for automated construction condition monitoring system for 19 HPPs was developed. 

Engurhesi ltd

(hydro-generating company in Georgia, which owns and operates the largest Caucasus HPP)

Inguri HPP

• A set of construction and installation works for the reconstruction of the on-site building of the HPP was completed.

Cascade Security Center

• The Cascade Security Center has been designed and implemented, which integrated automated construction condition monitoring system of Kaniv, Serednodniprovsk, Dniprovsk and Dnistrovsk HPPs into a single information base;
• Special software “Cascade” was developed and implemented for the Cascade Security Center, which combined data from automated construction condition monitoring system of the Dnipro and Dniester cascades of the HPP into a single software and analytical complex.

Kyiv HPP

• Automated construction condition monitoring system “Titan” was implemented (277 control points were automated, 48 multiplexers, 27 local data concentrators and Titan software were installed)

Kaniv HPP

• Automated construction condition monitoring system “Titan” was designed and implemented (280 control points were automated, 48 multiplexers, 27 local data concentrators and “Titan” software were installed);
• Operations on the design of hardware, installation of equipment, manufacture of metal structures and installation of cable lines of the stationary system for monitoring spatial displacement of structures were carried out.

Kremenchuk HPP

• Automated construction condition monitoring system “Titan” was implemented (209 control points were automated, 33 multiplexers, 15 local data concentrators and “Titan” software were installed);
• Fow meters (6 ultrasonic sensors) were designed and installed in the galleries and spillway dam of the HPP.

Serednodniprovska HPP

• Automated construction condition monitoring system “Titan” was designed and implemented (299 control points were automated, 30 multiplexers, 9 local data concentrators and “Titan” software were installed);
• Operations on the design of hardware, installation of equipment, manufacture of metal structures and installation of cable lines of the stationary system for monitoring spatial displacement of structures were carried out.

Dnipro HPP

• Automated construction condition monitoring system “Titan” was designed and implemented (1454 control points were automated, 140 multiplexers, 21 local data concentrators and Titan software were installed);
• Operations on the design of hardware, installation of equipment, manufacture of metal structures and installation of cable lines of the stationary system for monitoring spatial displacement of structures were carried out;
• Operations to control the level of water drop on rakes were planned and carried out, 16 radar precipitation gauges were installed;
• Surveying, designing and inclinometry of wells of control and measuring equipment of automated construction condition monitoring system were carried out.

Kakhovka HPP

• Automated construction condition monitoring system “Titan” was designed and implemented (335 control points were automated, 38 multiplexers, 8 local data concentrators and “Titan” software were installed).