Public tenders for electromechanical-equipment in Czech Republic

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Electromechanical equipment

Fyzikální ústav AV ČR, v.v.i. | Published February 25, 2016
cpvs
31720000

Electromechanical equipment

Electromechanical equipment

Vysoká škola báňská – Technická univerzita Ostrava | Published March 1, 2013
cpvs
31720000

Electromechanical equipment

electromechanical equipment

Technická univerzita v Liberci (46747885) | Published June 5, 2012
Winner
ANAMET s.r.o. Kováků 26 150 00 Praha 5 - Smíchov CZECH REPUBLIC
cpvs
31720000

Pro experimentální výzkum nových materiálů přídržných a úchopných systémů je předmětem zakázky univerzální zkušební stroj s vybavením pro analýzu pevnostních a frikčních vlastností testovaných materiálů.

Electromechanical equipment

Město Písek | Published November 30, 2016
Winner
Fortex-AGS, a.s.
cpvs
31720000

The contract is the reconstruction of the existing WWTP Sand blower room and exchange control system. There will be a complete removal and replacement of existing technological equipping blower room including blowers, valves and fans. The course includes minor alterations of the existing building blower room. Construction work will without significant interference with the supporting structures. The contract includes a complete replacement of the entire control system at the WWTP Sand.

Electromechanical equipment

Univerzita Karlova, Přírodovědecká fakulta | Published October 20, 2017  -  Deadline November 20, 2017
cpvs
31720000

Devices enabling data capture, ie the acquisition of aviation hyperspectral images (of the order of thousands of narrow adjacent spectral bands) and laser data from which the status and development of ecosystems / vegetation in model territories can be assessed.

A) Equipment for scanning hyperspectral image data using an unmanned carrier (UAV).

A1) VNIR sensor for the acquisition of hyperspectral image data for scanning using UAV.

A2) UAV compatible with the VNIR sensor available to obtain hyperspectral image data.

A3) Compatible aerospace software for data acquisition and preprocessing (orthoctification and creation of RGB mosaic).

A4) Sample data and calibration set (calibration tarpaulin and its calibrated spectral response curve).

(B) Equipment for obtaining LiDAR data captured from the UAV.

B1) LiDAR designed for UAV scanning.

B2) A higher accuracy GNSS / INS unit that significantly improves the accuracy of the standard GNSS supplied in its UAV standard section A2, section A2, to correct UAV position errors (required accuracy of rotation determination around x, y, z).

B3) LiDAR Data Processing Software.

Electromechanical equipment

Univerzita Karlova, Přírodovědecká fakulta | Published October 4, 2017
cpvs
31720000

A device that enables data capture, ie the acquisition of aviation hyperspectral images (of the order of thousands of narrow adjacent spectral bands) and laser data from which the status and development of ecosystems / vegetation in model territories can be assessed.

A) Equipment for scanning hyperspectral image data using an unmanned carrier (UAV).

A1) VNIR sensor for the acquisition of hyperspectral image data for scanning using UAV.

A2) UAV compatible with the VNIR sensor available to obtain hyperspectral image data.

A3) Compatible aerospace software for data acquisition and preprocessing (orthoctification and creation of RGB mosaic).

A4) Sample data and calibration set (calibration tarpaulin and its calibrated spectral response curve).

(B) Equipment for obtaining LiDAR data captured from the UAV.

B1) LiDAR designed for UAV scanning.

B2) A higher accuracy GNSS / INS unit that significantly improves the accuracy of the standard GNSS supplied in its UAV standard section A2, section A2, to correct UAV position errors (required accuracy of rotation determination around x, y, z).

B3) LiDAR Data Processing Software.

Electromechanical equipment

Univerzita Karlova, Přírodovědecká fakulta | Published November 16, 2017  -  Deadline December 4, 2017
cpvs
31720000

Devices enabling data capture, ie the acquisition of aviation hyperspectral images (of the order of thousands of narrow adjacent spectral bands) and laser data from which the status and development of ecosystems / vegetation in model territories can be assessed.

Electromechanical equipment

Město Písek | Published June 17, 2016
cpvs
31720000, 42996000, 45252200, 31682210, 42961100

Reconstruction blower room WWTP Sand and exchange control system WWTP Sand.

Electromechanical equipment

Město Písek | Published July 28, 2016  -  Deadline September 19, 2016
cpvs
31720000, 42996000, 45252200, 31682210, 42961100

The contract is the reconstruction of the existing WWTP Sand blower room and exchange control system. There will be a complete removal and replacement of existing technological equipping blower room including blowers, valves and fans. The course includes minor alterations of the existing building blower room. Construction work will without significant interference with the supporting structures. The contract includes a complete replacement of the entire control system at the WWTP Sand.

Electromechanical equipment

Univerzita Karlova v Praze, Matematicko-fyzikální fakulta | Published June 27, 2013
cpvs
31720000

Nákup předřadných optických prvků (Purchase of Optical Elements Upstream) – v rámci Thales

Machines and apparatus for testing and measuring

Centrum výzkumu Řež s.r.o. | Published February 9, 2017  -  Deadline March 14, 2017
cpvs
38540000

The subject of the tender is the supply of electromechanical equipment for two tests in combination with creep fatigue for load-pull pressure is the force capacity of ± 100 kN (± 10%) complying with EN ISO 7500-1.

Test equipment must allow implementation in steel samples test flow (including measuring deformation) creep into the fracture, strain and force controlled tests, tests for the slow deformation, fracture toughness test and J-integral test flow, combined with fatigue tests low-cycle fatigue crack propagation tests for low cycle fatigue, creep and creep fatigue in combination with the material to temperatures of at least 1100 ° C.

SUSEN - Instrumentation for testing creep

Centrum výzkumu Řež s.r.o. | Published February 22, 2016
cpvs
38540000

Devices for high temperature creep testing candidate materials IV reactors. generation and welded joints in air and in inert atmosphere at temperatures up to 1100 ° C, consisting of 2 instrumentovaných electromechanical testing machine creep in combination with fatigue and other mechanical strength test, the load 100 kN (+/- 10%) in combination with the furnace temperature to at least 1100 ° C, one of which is for testing in an inert gas and the second air. The third device is instrumented impact hammer for up to 50 J to determine the impact toughness of welds. Planned target public procurement is to ensure the supply of electromechanical equipment for two instrumented test flow, one of which is configured with a furnace with an inert gas. The delivery will also be a small impact hammer to 50J. The equipment will be used for testing high-temperature creep, low cycle fatigue and creep-fatigue combination of heat resistant structural steels and nickel alloys. Instrumented impact hammer will be used for the implementation of impact bending tests of welds and heat resistant materials on non-standard bodies (KLST). The device is necessary to create results that are necessary to achieve the objectives of the project Sustainable Energy (drying) - Phase 2 of the program, research, development and education: Determination of the degradation mechanisms abuses creep-resistant steels at cyclic loading, development of materials for fusion reactor components 4th generation and the study of brittle fracture properties of heat affected areas of welding creep resistant steels. Public orders will be fulfilled within 1/2017.
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