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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Poprawa sposobu określania fizycznych właściwości termicznych substancji metodą termistorowego ogrzewania bezpośredniego
Języki publikacji
Abstrakty
This work devoted to investigating for improving methods possibility of determining material thermal characteristics measured by direct heating thermistor method and selecting the optimum settings heating sensor. Presented the results of experimental researches with control fluids with the help of the developed device, which gave an opportunity to evaluate the effectiveness of the proposed improvements. Recommended to reduce errors in the measurement by direct heating thermistor used method of determining thermal conductivity materials thermistor temperature under heating pulse of electric current with regard to thermal characteristics thermistor probe, thermistor power changes during it`s heating and temperature of the sample.
Praca poświęcona jest badaniom nad poprawą metod obliczania właściwości cieplnych materiałów mierzonych metodą termistora bezpośredniego ogrzewania i doborem optymalnych ustawień czujnika ogrzewania. Przedstawiono wyniki eksperymentalnych badań p łynów kontrolnych za pomocą opracowanego urządzenia, które dało możliwość oceny skuteczności proponowanych ulepszeń. Zalecane do zmniejszenia błędów w pomiarze za pomocą termistora bezpośredniego ogrzewania metody określania temperatury termistorowej materiałów termistorowych w impulsie grzewczym prądu elektrycznego w odniesieniu do charakterystyki cieplnej sondy termistorowej, zmian mocy termistora podczas jego ogrzewania i temperatury próbki.
Wydawca
Czasopismo
Rocznik
Tom
Strony
121--126
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
autor
- National Technical University of Ukraine Sikorsky Kyiv Polytechnic Institute”, Ave. Peremogy, 37, 03056, Kyiv, Ukraine
autor
- National Technical University of Ukraine Sikorsky Kyiv Polytechnic Institute”, Ave. Peremogy, 37, 03056, Kyiv, Ukraine
autor
autor
- Lublin University of Technology, Institute of Electronics and Information Technology, Nadbystrzycka 38A, 20618 Lublin, Poland
autor
- East Kazakhstan State Technical University named after D.Serikbayev
autor
- Kazakh National Research Technical University named after K.I.Satpayev
Bibliografia
- [1] Akulenko D. V., Agapov A. N., Procenko I. G., Izmerenie kojefficienta teploprovodnosti sredy s ispol'zovaniem termistora prjamogo podogreva, Problemy tehnogennoj bezopasnosti i ustojchivogo razvitija, III (2012), 49–52
- [2] Divin A. G, Methods and Means for Determining the Dependence of the Thermophysical Characteristics of Liquid Polymer Materials on Shear Rate and Temperature, Thesis of Dr. techn. Sc., Tambov, Russia (2011), 370
- [3] Gurov A.V., Ponomarev S.V., Measurement of thermophysical properties of heat-insulating materials by the method of a flat instantaneous heat source, monograph Tambov FGBOU HPE TSTU, (2013), 100
- [4] Zaydel A. N., Errors in measuring physical quantities.– St. Petersburg, (1974), 104
- [5] Godovskiy Y. K., Thermophysical methods for polymer analysis, Chemistry, Moskow, (1976), 216
- [6] Atkins R. T., Wright E. A., Thermistor - based thermal conductivity measurement system, U.S. Army Corps of Engineers Cold Regions Research & Engineering Laboratory, Special Report 90-24, (1990), 1-11
- [7] Atkins R.T., Patent 04522512 USA, Thermal conductivity measurement method, Jun. 11, (1985)
- [8] Dombek G., Nadolny Z., Measurement of thermal conductivity coefficient of insulating liquids using authoring measurement system, Infomratyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska, 4 (2014), nr. 1, 66-68
- [9] Kharalkar N. M., Hayes L. J., Valvano J. W., Pulse-power integrated-decay technique for the measurement of thermal conductivity, Measurement Science and Technology, 19 (2008), Nr. 7, 1-10
- [10] Kharalkar N. M., Valvano J. W., Finite element analysis and experimental verification of multilayered tissue characterization using the thermal technique, Conf Proc IEEE Eng Med Biol Soc., 1 (2006), 3182-3185
- [11] Matvienko S. N. et al., Research conductivity of the material by the method of pulse termistometriyi, Vіsnik Kremenchuts'kogo natsіonal'nogo unіversitetu іm. M. Ostrograds'kogo, 6 (2015), nr. 95, 106–112
- [12] Matvienko S. N., Vysloukh S. P., Improving the accuracy of measuring thermal conductivity of liquids by direct heating thermistor, Naukovі vіstі NTUU KPІ, 6 (2016), 85–93
- [13] Matvienko S., Vysloukh S., Martynchyk O., Increasing accuracy of measuring thermal conductivity of liquids by using the direct heating thermistor method, Eastern-European Journal of Enterprise Technologies, 4 (2016), nr. 5, 20-30
- [14] Matvienko S. M., Vysloukh S. P., Tereschenko M. F., Matvienko A. M., Patent of Ukraine, G01N 25/18 (2006.01) Device for measuring the heat transfer coefficient of various substances, March 29 2017, pub. 10.10.2017, Bull. No. 19/2017
- [15] Kotyra A., Wójcik W., Gromaszek K. et al., Assessment of biomass-coal co-combustion on the basis of flame image, Przegląd Elektrotechniczny, 88 (2012), n.11B, 295-297
- [16] Pavlov S.V., Kozhemiako V.P., Kolesnik P.F., et al., Physical principles of biomedical optics: monograph, Vinnytsya: VNTU, (2010), 152
- [17] Kholin V. V., Chepurna O. M., Pavlov S., et al. Methods and fiber optics spectrometry system for control of photosensitizer in tissue during photodynamic therapy, Proc. SPIE 10031, Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments, (2016), 1003138
- [18] Rovira R. H., Tuzhanskyy S. Y., Pavlov S. V., et al., Polarimetric characterisation of histological section of skin with pathological changes, Proc. SPIE 10031, Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments, (2016), 100313E
- [19] Pavlov S. V., Vassilenko V. B., et al., Methods of processing biomedical image of retinal macular region of the eye, Proc. SPIE 9961, Reflection, Scattering, and Diffraction from Surfaces V, (2016), 99610X
- [20] Rovira R., Bayas M. M., Pavlov S. V., Kozlovskaya T. I., Kisała P., et al., Application of a modified evolutionary algorithm for the optimization of data acquisition to improve the accuracy of a video-polarimetric system, Proc. SPIE 9816 Optical Fibers and Their Applications, (2015), 981619
- [21] Stolarczuk P., Yatsuk V., Majewski J., et al., Usage of capacitive sensors for fast checking of parameters of multicomponent solutions, Przegląd Elektrotechniczny, 86 (2010) Nr 10, 92-95
- [22] Hübert T., Tiebe C., Detjens M., et al., On-site calibration system for trace humidity sensors, Measurement, 91 (2016) 251-257
- [23] Zabolotna N. I., Pavlov S. V., Radchenko K. O., Stasenko V. A., Wójcik W., et al., Diagnostic efficiency of Mueller-matrix polarization reconstruction system of the phase structure of liver tissue, Proc. SPIE 9816 Optical Fibers and Their Applications (2015), 98161E
- [24] Zabolotna N. I., Pavlov S. V., Ushenko A. G. , Sobko O. V., Savich V. O., Multivariate system of polarization tomography of biological crystals birefringence networks, Proc. SPIE 9166 Biosensing and Nanomedicine VII, (2014), 916615
- [25] Martsenyuk V., Petruk V. G., Kvaternyuk S. M., et al., Multispectral control of water bodies for biological diversity with the index of phytoplankton, 16th International Conference on Control, Automation and Systems ICCAS, (2016), 988–993
- [26] Osadchuk V. S., Osadchuk A. V., The microelectronic transducers of pressure with the frequency, Electronics and Electrical Engineering, 5 (2012), nr. 121, 105-108
- [27] Osadchuk V. S., Osadchuk A. V. Radiomeasuring Microelectronic Transducers of Physical Quantities, Proceedings of the 2015 International Siberian Conference on Control and Communications (SIBCON), (2015)
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-70bbe63e-d5f4-4acc-9f3b-27084bf3b55e