Temperature - 2003
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The exhibition of temperature and related technologies or applications is foreseen. We would like to invite You to occupy Your product exhibition place. |
Programme
The 8-th International Conference
on Temperature and
Thermal Measurements
“TEMPERATURE – 2003”
Tuesday , September 16
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1000-2200 |
Registration (The registration and all technical events will be held in Palace "Zaliznychnykiv", Fed'kovycha St. 54, Lviv ) |
Wednesday, September 17
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800 -10 00 |
Registration (The registration and all technical events will be held in Palace "Zaliznychnykiv", Fed'kovycha St. 54, Lviv ) |
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900 -9 30 |
Opening of the 8-th International Conference “TEMPERATURE – 2003” |
Plenary Session
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930- 1005 |
1. Main Problems of the Temperature Measurement in Atomic Industry I. Fedyk ( NVO"Luch" Podolsk, Moscow obl., Russia) |
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1005-1040 |
2. Temperature-deformation Influence Factors at the Metrological Characteristics of Thermotransduser Sensitive Parts B. Stadnyk, S. Yatsyshyn (NU “Lviv Polytechnic”, Lviv, Ukraine) |
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1040-1055 |
Coffee break |
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1055-1130 |
3. Using Self Calibrated Thermocouples with Bench Mark Material at Temperatures 500¸650°C in Steam Generators F. Bernhard, D. Bohun, S. Augustin, H. Mammen, A. Donin (T U Ilmenau, Ilmenau, Germany) |
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1130-1205 |
4. Biochemical Information System on the Thermobiosensors N.Starodub, V.Melnyk, A.Vasylenko, A.Shmyreva (A.V.Palladin Biochemistry Institute of Electrodynamics of NAS of Ukraine, NTU “KPI”, Kyiv, Ukraine) |
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1205-1240 |
5. Problems of the Measurement and the Reproductivity of the Unit of the Heat Flow Density T.Hryshchenko (Institute of Technological Thermo physics of the NAS of Ukraine, Kyiv, Ukraine) |
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1245 – 1415 |
Lunch break |
Plenary Session (continuation)
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1415-1450 |
6. State and Prospects of Developing the Instruments of Temperature Control O.Huk (SIA “Thermo prylad”, Lviv, Ukraine)
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1450-1525 |
7. Platinum Resistance for Thermometer Sensor Milan Borovička, Janač. Alexander, Jana Urdziková ( Slovak University of Technology, Bratislava, Trnava, Slovakia) |
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1525-1600 |
8. Prospects of the Thermometric Materials Developing in Ukraine V. Kadochnikov (DPPZKM, Dnipropetrovsk, Ukraine)
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1600-1615 |
Coffee break |
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1615-1715 |
Poster Session (Sections 3,4) |
Section 3. Sensors
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3.1. |
Resistive
Multielement Temperature Sensors |
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3.2. |
Multilayered
Galvanic Converters of the Heat Flow |
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3.3. |
Thermal Converters of
Resistance for Measuring the Temperature Difference
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3.4. |
Small-sized Copper Thermal Converters of Resistance O. Huk, O. Lakh, M. Protsevyat, V. Kovalyova (SIA “Thermo prylad”, Lviv, Ukraine) |
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3.5. |
Studying Metrology Characteristics of Platinum Thermal Converters of Resistance
with Deposited Sensitive Elements
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3.6. |
Studying Transient Thermoelectric
Phenomena in Solid Conductors
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3.7. |
Platinum Thermal Converters of Resistance with Increased Accuracy for Cryogenic
Temperatures
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3.8. |
Low-frequency Fluctuations of Resistance of Thermo sensitive Elements
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3.9. |
Balance Approximations
in Optimal Representation of Characteristics of Resistance Thermometer
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3.10. |
Platinum Thermo Resistive Transducer Stability Investigation
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3.11. |
Thermometers based on Thread-like Crystals Siege for Cryogenic Range of Temperature
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3.12. |
Primary Converter of
Increased Sensitivity for Ultrasonic Impulse Thermometer
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3.13. |
Thin Film Thermocouple Instrument for Measuring the
Quality of Protective Capability of Coating
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3.14. |
Peculiarities of the Appearance of Thermo-Electromotive
Force in Thin Films of Germanids of the Transition Metals with the Additives
of Rare Earth Metals in Low Temperature Range
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3.15. |
The
Techniques of the Quality of Thermo electrode Wire Observing
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3.16. |
Thermomagnetic Sensors for the Temperature and Radial
Heat Flows Measuring
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3.17. |
Threshold Temperature Sensor Based on the Effect of
Cholesteric-Nematic Transition
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3.18. |
Studies of the Impedance of the Double-Gate m-d-s Structure
at Low Temperatures |
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3.19. |
Metrology Provision and the Techniques for the Temperature
Characteristics of Crystallooptical Thermal Converters Determining
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3.20. |
Studies of Metrology Characteristics of Sensitive Elements
in Crystallooptical Thermal Converters
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3.21. |
Temperature Sensors p-n Transition
Using Interchangeability Maintenance |
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3.22. |
Using Thermistors Temperature
Measurement
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3.23. |
Thin Thermoresistors for the Electric Motor Powerful Triac Switch Temperature
Monitoring
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3.24. |
Thermotrandusers for
the Gas Medium Dynamic Characteristics Investigation
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3.25. |
Immersible Thermotranduces
Quality Design Provision
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3.26. |
Problems and Prospects
of Temperature Metal Liquid Sensors
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3.27. |
Temperature Sensor Deformation State Simulation
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3.28. |
Crystal – Optical Temperature
Sensor with an Inner Point
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3.29. |
Relaxation
of Thermo mechanical Stresses in Thermocouple Wires Made of Metal Glass
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3.30. |
Temperature Sensors Made on the Basis of Semiconductor
Devise Structures
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3.31. |
Some Aspects of Using the Thermooptic Effect of A2MX4 Crystals
in Temperature Measurements
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3.32. |
Using of A2MX4
Crystals in Construction the Temperature Sensors
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4.1. |
Temperatural
Impact on the Process of the Flafragle Material Disintegration in Spiral-Jet
Mill
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4.2. |
Using Thermo vision in Studying Thermal Losses in Heating Systems
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4.3. |
Tool
Wear and Temperature Functions in Variable Speed Turning
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4.4. |
Temperature Diagnostics of the Underground Heating Systems
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4.5. |
Thermometric
Equipment for Measuring Thermal Losses at the Heating Systems
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4.6. |
Specialized Pyrometer
for Aluminum Melts
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4.7. |
Multichannel Systems
for Temperature Measuring Based on Thermosuspension
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4.8. |
Introducing Temperature Amendments while Measuring the Humidity of Lose Material
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4.9. |
System of Temperature Control of the Volt Working Standard
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4.10. |
Peculiarities
of Constructing the Information Models in Experimental Physics
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4.11. |
Concerning
the Issue of Controlling the Functional State of High-Voltage Sites
of Power System
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4.12. |
Devices
and Techniques of Temperature-Wind Atmosphere and Stratosphere Sounding
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4.13. |
MICROLAN:
Digital Technologies in the System of Temperature Monitoring
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4.14. |
Techniques
for Measuring Heat Conduction of Building Materials and Heat-Insulating
Materials
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4.15. |
Experimental
Temperature Evaluation of the Products of the Hydrogen-Air Mixture Explosion
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4.16. |
Temperature Control
in Home Refrigerators
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4.17. |
Temperature Control at Evaluating the Quality of Hotel Services
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4.18. |
System
of Monitoring the Temperature and Humidity State of Museum Sites
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4.19. |
Polyfunctional Number-Impulse Special Processor for the Signals of Temperature
Spinners Processing
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4.20. |
Improvements
to the System of Scanning-type of Logging the Rate of Temperature Changes
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4.21. |
Thermal Processes in Adhesive Covering Modeling
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4.22. |
Thermal Processes on Adhesive Substract Systems Power
Characteristics Influence Modeling
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4.23. |
Using Biosensors Temperature
Influence at the Water Toxicity Measurement Results Investigation
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4.24. |
Difference – Analytic Scheme for the None and Quasi Stationary Temperature Field
of Many Layed Structures at the Complex Condition of the Lateral Surfaces
Heat Transfer Determination
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4.25. |
Ferromagnetic Specimen
Temperature Field at the Induction Heating Mathematical Simulation and
Investigation
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4.26. |
New
Non-Contact and Optic Fiber Technology for Continuous Temperature Observation
of Open and Closed Objects
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4.27. |
Temperature
and Thermophysic Observation of the Technology Process, Equipment and
Materials
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4.28. |
The Influence of Burning
Products on Temperature Measurement Results in Burning Furnaces by Acoustic
Method
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4.29. |
Additive Measuring Techniques
in the Instruments Widely Used in Industry
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1730 -2000 |
City Walking Tour (departure from the Palace "Zaliznychnykiv", Fed'kovycha St. 54, Lviv ) Building |
The Second Day
Thursday, September 18
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800 - 900 |
Registration (The registration and all technical events will be held in Palace "Zaliznychnykiv", Fed'kovycha St. 54, Lviv ) |
Plenary Session
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900- 935 |
9. Constructing Temperature Scales According to Radiation A. Nazarenko, L. Nazarenko ( Kharkiv National Research Institute, Kharkiv, Ukraine)
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935-1010 |
10.
Principle of Temperature Measure by the Method Combined Emission-Reflection
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1010-1045 |
11.
Performance Evaluation of 2MW Oil Burner Furnace System
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1045-1100 |
Ñoffee break |
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1100-1135 |
12. State of Metrology Provision
of Temperature Measurements in Lviv Region
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1135–1210 |
13. Platinum Resistance Thermometers as
Secondary Transfer Standard
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1210-1245 |
14. Standard Temperature
Point on Light Array Cutting Sign Inversion Based
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1245 – 1415 |
Lunch break |
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1415-1515 |
Poster Session (Sections 1,2) |
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1.1. |
Achieving
0.25 mK Uncertainty with an Integrated-circuit Resistance Thermometer
Readout |
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1.2. |
Thermal Noise
of Thermoresistors’ Parameters Measurements and heir Representation
in ORCAD CAPTURE CIS |
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1.3. |
Thermo – Derivational and Electro – Derivational Analysis
of Foundry Stacks |
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1.4. |
Evaluation of Errors in the Temperature
Measurement Channel in Diffusive Furnaces |
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1.5. |
Measurement of Temperature Distribution
along the Stem of a Bimetallic Valve |
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1.6 |
X-ray Thermometry
of Crystalline Materials |
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1.7. |
Determining the Temperature of a Heated Body in Ray – translucent and Attenuating
Media According to the Spectrum of Thermal Radiation |
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1.8. |
Spectral Emissive Power of the Zirconium Oxide Film for the Wavelengths of
650 nm and 530 nm. The Method and the Results of the Studies |
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1.9. |
Multichannel Bridge Measuring Instruments with Low Resistance Thermo resistance Transducers
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1.10. |
Pyrometers in the Modern Maintenance of the Production of Render mx4+/mx6 phototemp
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1.11. |
Pyrometer for Measuring the Temperature
of Flame THERMLLERT TXD54 |
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1.12. |
Digital Thermometer
with Increased Accuracy |
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1.13. |
Spectral – Compensation Methods of the Multicolored
Emission Pyrometry |
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1.14. |
Some Prospective Developments of Digital Instruments at the Lviv Scientific-Industrial
Association “Thermo prylad” |
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1.15. |
Practical Developments of High
– Precision Means of Temperature Measurements |
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1.16. |
Increasing the Accuracy and Broadening
the Temperature Range of Pyrometers with the Modulation of Radiation Flow |
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1.17. |
Thermometers for
Express Measurements of Temperature with Polyfunctional Thermal Converters |
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1.18. |
Electron Thermometer with Digital (Numeral) Indication
of Temperature |
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1.19. |
Techniques for measuring the temperature of the Surfaces
of Cement Furnaces |
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1.20. |
Unielement Instument for Measuring Pressure and Temperature |
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1.21. |
The Techniques for Increasing the Accuracy of Determining
the Transfer Function of Ultrasound Sensors |
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1.22. |
Measuring Devices with Direct Conversion of the Parameters
of Impedance Sensors of Temperature |
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1.23. |
Impedance Control of the Quality of Thermo electrode
Wire |
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1.24. |
Measuring the Temperature Distribution at Cement Annealing |
| 1.25. |
Measuring Channel Quality of the Digital Temperature Sensors
Investigation |
| 1.26. |
Crystalloptic
Thermometer |
| 1.27. |
Algorithmic Method of Temperature Measuring by Thermoelectric
Thermometer |
Section 2. Temperature Measurement Metrologies
| 2.1. |
Eutectic Temperature Point Stability Investigation |
| 2.2. |
Determining the Interval of Unreliability of Temperature Measurements at a Low
Number of Measurements
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| 2.3. |
Calibration Testing of Temperature Sensors under Field Conditions |
| 2.4. |
Calibrator for Checking of Transducers with Standard Out-put
Signal |
| 2.5. |
Precise Thermometric Bridge CA300 |
| 2.6. |
Peculiarities of Radiative Comparison for the Representation of the Density Unit
of the Heat Flow |
| 2.7. |
Peculiarities of Representation
of the Unit of Density of the Heat Flow by Means of Conductivity Method |
| 2.8. |
Commercial Low-temperature Calibration Station for the Radiation Pyrometers Produced
by Raytek Raykslt |
| 2.9. |
Commercial Standard Pyrometer TRIRAT produced by RAYTEK |
| 2.10. |
High speed gas Stream Temperature Measurement Error Estimation |
| 2.11. |
Studying the Phase Transition
of Pure Copper Solidification as a Datum Point for Approximating the
ITS-90 Using Optical Methods |
| 2.12. |
Accounting for the Effect of the Source Size at Registering the Temperature Datum
Point by Photoelectric Pyrometer |
| 2.13. |
Multichannel Calibrator TC-400 for Calibration of Contact
Sensors of Temperature |
| 2.14. |
Precise Multichannel Information Measuring System CAÇ20 |
| 2.15. |
Prospects of Applying the Peltie Elements in Metrology Practice |
| 2.16. |
Studies of Metrology Characteristics of Integral Thermal
Converters |
| 2.17. |
Two Cascade Digital-Analogue Converter for Metrology Studies |
| 2.18. |
Theoretical Aspects of Checking the Thermocouples using
the Peltie Effect |
| 2.19. |
Thermometry Standard Document Recent State in Ukraine |
| 2.20. |
Industrial Using Temperature Measuring Instrument Error
Prediction |
| 2.21. |
The
European Virtual Institute for Thermal Metrology |
Plenary Session (continuation)
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1515-1550 |
15. Issues of Elaborating the Secondary Equipment in
Noise ThermometryPrediction
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1550-1625 |
16. Pirometers Industrial Application and its’ Metrology Provision
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1625-1700 |
17. Invited lecture
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1700-1730 |
Walking to the Main Building of NU "Lviv Polytechnic" |
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1730-1830 |
Technical Exhibition Visiting |
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1830-1900 |
Walking to the House |
