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Development of Correction Schemes of Temperature Errors in the Moisture Meter Transformer with Cylindrical Electrodes

Received: 8 March 2022     Accepted: 29 March 2022     Published: 8 April 2022
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Abstract

The aim of carried out investigations is the analysis of different correction errors circuits of temperature in the moisture transformer with a cylindrical electrode in point of view increasing the measurements accuracy of grain and grain products moisture. Improving the measurement accuracy in the moisture transformer using functionality, constructive manufacturability and linearity of static characteristics ensure methods is realized. At the same time, a multiplier correction circuit, a circuit with a high degree of correction, and an additive logo metric circuit, which can also be used in other capacitive transformers, have been considered. The dependence of the reactive resistance of cylindrical transformer on the bulk materials capacity has been obtained experimentally. It has been shown that the reactive resistance is decreased sharply when the bulk materials capacity reaches the value 2 pF. Further, it is decreasing slowly on the capacity that demonstrates the change of the transformer sensitivity too. The functional dependence of capacity moisture transformer with cylindrical electrode sensitivity on the reactive resistance has been studied. It has been revealed that when the reactive resistance of the cylindrical transformer is growing then its sensitivity is decreasing. The maximal cylindrical transformer sensitivity reaches when the reactive resistance equals to rm=0.5×104 Ohm which corresponds to maximal change of the bulk materials capacity. The dependence of the cylindrical transformer reliability for bulk materials on the middle working time without failure has been studied. The carried out analysis showed that the reliability of cylindrical transformer is decreasing on the using time and in the initial working exploitation stage of the transformer essential interaction of heating and electric effects in the device leads to decreasing the reliability down to value 0.3.

Published in Journal of Electrical and Electronic Engineering (Volume 10, Issue 2)
DOI 10.11648/j.jeee.20221002.13
Page(s) 57-63
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2022. Published by Science Publishing Group

Keywords

Temperature Errors, Moisture Capacity Transformer, Cylindrical Electrode, Sensitivity

References
[1] Sh. Kumar, K. Kumar, R. T. Islam. (2021) Anodic Aluminum oxide based humidity sensor for online moisture monitoring of power transformer. Sensors and actuators B: Chemical. 329: 128908.
[2] K. Tang, X. Chen, X. Ding, X. Zhao, X. Yu, X. Yu, X. Chen. (2021) Humidity Sensitivity Enhancement Effects of Metal Nanoparticles Loaded Fullerene. Sensors and actuators B: Chemical. 329: 129086.
[3] O. M. Kusevol. (2015) Dielectric grain moisture meter. Izmeritelnaya i vichislitelnaya texnika v texnologicheskix protsessax. 50: 44-47.
[4] X. A. Usmanova, M. P. Parpiyev, O. X. Abduraxmanov, A. Turgunbayev. (2020) Super High frequency transformer of moisture of bulk and fibrous materials. Pribori. 3 (237): 33-38.
[5] E. Uljayev, U. M. Ubaydullayev, Sh. N. Narzullayev. (2020) Capacity transformer of coaxial and cylindrical form of humidity meter. Chemical Technology, Control and Management. 4 (94): 23-30.
[6] P. I. Kalandarov, Z. M. Mukimov, O. S. Logunova. (2021) Design of grain moisture control devices for flour mills. Technical science and innovation. 2. Article 5. DOI: https://doi.org/10.51346/tstu-01.21.2-77-0123
[7] P. P. Kuluyev, P. M. Matyaqubova. (2021) Development of mathematical models of capacity transformers of moisture of grain and grain products. Metrologiya i proborostroyeniye, 3 (94): 8-12.
[8] V. M. Grechishnikov, Ye. G. Komarov. (2020) The mathematic model for function of multi censor transformer of binary mechanical signals to electrical based fiber optical digital analogical transformer. Izmeritelnaya texnika, 2: 20-28.
[9] Sergeyev I. Yu. (2019) Analysis of measuring converter errors which result due to a continuous change in time of its blocks additive errors. Electronics and control systems. 2 (60): 30-34.
[10] Samdomirski S. G. (2019) Dependence of the correlation coefficient between the results of a parameter measurement and its true values on the reduced measurement error. Pribori i metodi izmerenii. 10 (1): 90-98.
[11] Dunayeva I. V., Kazakov V. M., Sladkov D. V. (2019) The influence of host temperature sensor the temperature measurement error of the working fluid in the cavities of the multi- camera experimental device. Izvestiya TulGU. Texnicheskiye nauki. 11: 14-20.
[12] Grinevich F. B., Savolyuk A. M. (2018). Errors of coaxial-cylindrical trancducers for capacitance levelmeaters. Pratsi institutu elektrodinamiki nationalnoy akademii nauk ukraini. 49: 98-103.
[13] Filatov A. V., Serdyukov K. A., Novicova A. A. (2020) Prospects for the use of a modified zero method for measuring temperature with resistance sensors. Izmeritelnaya texnika. 7: 51-55. DOI: https:/doi.org/10.32446/0368-1025it.2020-7-51-55.
[14] T. Z. Nasirov, P. R. Ismatullayev, X. Sh. Jabborov. (2020) Mathematical model of high-frequency hygrometer of cotton seeds based on substitution circuits. Measurement techniques, 63. 9: 758-764. DOI 10.1007/s11018-021-01851-2.
[15] V. P. Arbuzov, M. A. Mishina. (2017) Correction of capacitive pressure sensor’s temperature error. Izvestiya visshix uchebnix zavedeniy. Povoljskii rayon. Texnicheskiye nauki. 3 (43): 94-105. DOI 10.21685/2072-3059-2017-3-8.
[16] V. A. Ostreykovskii. (2003) The reliability theory: textbook. Moscow: Visshaya shkola.
[17] https://www.otrezal.ru/section25/sovet/vlagomer-zerna-he-lite-tehnicheskie-harakteristiki.html (date of the last entering 28.03.2022.)
Cite This Article
  • APA Style

    Nasirov Tulkun Zakirovich, Jabborov Khamdam Shaymardonovich. (2022). Development of Correction Schemes of Temperature Errors in the Moisture Meter Transformer with Cylindrical Electrodes. Journal of Electrical and Electronic Engineering, 10(2), 57-63. https://doi.org/10.11648/j.jeee.20221002.13

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    ACS Style

    Nasirov Tulkun Zakirovich; Jabborov Khamdam Shaymardonovich. Development of Correction Schemes of Temperature Errors in the Moisture Meter Transformer with Cylindrical Electrodes. J. Electr. Electron. Eng. 2022, 10(2), 57-63. doi: 10.11648/j.jeee.20221002.13

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    AMA Style

    Nasirov Tulkun Zakirovich, Jabborov Khamdam Shaymardonovich. Development of Correction Schemes of Temperature Errors in the Moisture Meter Transformer with Cylindrical Electrodes. J Electr Electron Eng. 2022;10(2):57-63. doi: 10.11648/j.jeee.20221002.13

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  • @article{10.11648/j.jeee.20221002.13,
      author = {Nasirov Tulkun Zakirovich and Jabborov Khamdam Shaymardonovich},
      title = {Development of Correction Schemes of Temperature Errors in the Moisture Meter Transformer with Cylindrical Electrodes},
      journal = {Journal of Electrical and Electronic Engineering},
      volume = {10},
      number = {2},
      pages = {57-63},
      doi = {10.11648/j.jeee.20221002.13},
      url = {https://doi.org/10.11648/j.jeee.20221002.13},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jeee.20221002.13},
      abstract = {The aim of carried out investigations is the analysis of different correction errors circuits of temperature in the moisture transformer with a cylindrical electrode in point of view increasing the measurements accuracy of grain and grain products moisture. Improving the measurement accuracy in the moisture transformer using functionality, constructive manufacturability and linearity of static characteristics ensure methods is realized. At the same time, a multiplier correction circuit, a circuit with a high degree of correction, and an additive logo metric circuit, which can also be used in other capacitive transformers, have been considered. The dependence of the reactive resistance of cylindrical transformer on the bulk materials capacity has been obtained experimentally. It has been shown that the reactive resistance is decreased sharply when the bulk materials capacity reaches the value 2 pF. Further, it is decreasing slowly on the capacity that demonstrates the change of the transformer sensitivity too. The functional dependence of capacity moisture transformer with cylindrical electrode sensitivity on the reactive resistance has been studied. It has been revealed that when the reactive resistance of the cylindrical transformer is growing then its sensitivity is decreasing. The maximal cylindrical transformer sensitivity reaches when the reactive resistance equals to rm=0.5×104 Ohm which corresponds to maximal change of the bulk materials capacity. The dependence of the cylindrical transformer reliability for bulk materials on the middle working time without failure has been studied. The carried out analysis showed that the reliability of cylindrical transformer is decreasing on the using time and in the initial working exploitation stage of the transformer essential interaction of heating and electric effects in the device leads to decreasing the reliability down to value 0.3.},
     year = {2022}
    }
    

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  • TY  - JOUR
    T1  - Development of Correction Schemes of Temperature Errors in the Moisture Meter Transformer with Cylindrical Electrodes
    AU  - Nasirov Tulkun Zakirovich
    AU  - Jabborov Khamdam Shaymardonovich
    Y1  - 2022/04/08
    PY  - 2022
    N1  - https://doi.org/10.11648/j.jeee.20221002.13
    DO  - 10.11648/j.jeee.20221002.13
    T2  - Journal of Electrical and Electronic Engineering
    JF  - Journal of Electrical and Electronic Engineering
    JO  - Journal of Electrical and Electronic Engineering
    SP  - 57
    EP  - 63
    PB  - Science Publishing Group
    SN  - 2329-1605
    UR  - https://doi.org/10.11648/j.jeee.20221002.13
    AB  - The aim of carried out investigations is the analysis of different correction errors circuits of temperature in the moisture transformer with a cylindrical electrode in point of view increasing the measurements accuracy of grain and grain products moisture. Improving the measurement accuracy in the moisture transformer using functionality, constructive manufacturability and linearity of static characteristics ensure methods is realized. At the same time, a multiplier correction circuit, a circuit with a high degree of correction, and an additive logo metric circuit, which can also be used in other capacitive transformers, have been considered. The dependence of the reactive resistance of cylindrical transformer on the bulk materials capacity has been obtained experimentally. It has been shown that the reactive resistance is decreased sharply when the bulk materials capacity reaches the value 2 pF. Further, it is decreasing slowly on the capacity that demonstrates the change of the transformer sensitivity too. The functional dependence of capacity moisture transformer with cylindrical electrode sensitivity on the reactive resistance has been studied. It has been revealed that when the reactive resistance of the cylindrical transformer is growing then its sensitivity is decreasing. The maximal cylindrical transformer sensitivity reaches when the reactive resistance equals to rm=0.5×104 Ohm which corresponds to maximal change of the bulk materials capacity. The dependence of the cylindrical transformer reliability for bulk materials on the middle working time without failure has been studied. The carried out analysis showed that the reliability of cylindrical transformer is decreasing on the using time and in the initial working exploitation stage of the transformer essential interaction of heating and electric effects in the device leads to decreasing the reliability down to value 0.3.
    VL  - 10
    IS  - 2
    ER  - 

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Author Information
  • Department of Exact Sciences, Geological Sciences University, Tashkent, Uzbekistan

  • Department of Electronics and Automatics, Tashkent State Technical University, Tashkent, Uzbekistan

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