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Expression for Capacity of the Cone Type Converter of the Grain and Grain Products Sensor

Received: 30 December 2018     Accepted: 16 January 2019     Published: 31 January 2019
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Abstract

The expression for the cone type transformation moisture meter capacity for grain and grain products, using which we can measure the moisture more accurately has been considered. The analytical expression for the proposed ourselves sensor construction capacity having truncated cone shape has been given. The dependence of construction capacity on the geometrical sizes of conducting compartment (height, internal and external radiuses) has been investigated. The values of the capacity by optimization sizes of the construction conducting compartment have been presented. It has been defined that the maximal capacity of the sensor equals to 9.26 pF and the capacity is nonlinear and decreasing monotonic down to zero.

Published in International Journal of Sensors and Sensor Networks (Volume 6, Issue 3)
DOI 10.11648/j.ijssn.20180603.11
Page(s) 38-42
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), 2019. Published by Science Publishing Group

Keywords

Grain Moisture, Capacity, Grain Sensor, Measure Accuracy

References
[1] Berliner M. A. Electrical measurements, automatic control and moisture regulation (in Russian). -Moscow: Energiya, 1965, -488 p.
[2] Berliner M. A. Moisture measurements (in Russian). -Moscow: Energiya, 1973, -400 p.
[3] Ismatullayev P. R. Methods and technical equipments for moisture controlling in cotton oil production (in Russian). -Tashkent: Fan, 1983, -108 p.
[4] Grachev A. V. The errors analysis of measurements scheme for resistant transformation without contact conduct metric sensor (in Russian) // Izmereniye, monitoring, upravleniye, kontrol, 2016. № 2(16). P. 96-102.
[5] Grachev A. V., Churakov P. P. Parameters transformation of without contact capacity sensors for conductmetric measurements (in Russian) // Izvestiya Samarskogo nauchnogo sentra rossiyskoi akademii nauk, 2016. V.18. № 4(47). P. 1363-1366.
[6] Antonets I. V., Borsoyev V. A., Katsura A. V., Stepanov S. M. Investigation weight meter construction base on the circle elastic sensitive element and secondary string sensor (in Russian) // Sibirskii jurnal nauki i texnologii, 2017. V.18. № 2. P. 358-366.
[7] Arbuzov V. P., Mishina M. A. Measurement transformations for capacity micromechanical gyroscopes (in Russian) // Izvestiya vuzov. Priborostroyeniye, 2017. V.60. № 12. P. 1138-1145.
[8] Arbuzov V. P., Mishina M. A., Belintseva P. N., Anan'inaI. Yu. Measurement chains of high temperature pressure capacity sensors (in Russian) // Izmereniye, monitoring, upravleniye, kontrol, 2015. № 1(11). P. 81-88.
[9] Arbuzov V. P., Mishina M. A., Belintseva P. N. Systematization of channel phase separated method for capacity sensors measurement chains (in Russian) // Izvestiya visshix uchebnix zavadenii. Povoljskii rayon. Texnicheskiye nauki, 2017. № 1(41). P. 85-95.
[10] Kikot V. V., Malanin V. P., Sherbakov M. A. Correction for temperature errors of pezoelectric sensor of dynamic pressure in thermal shock conditions (in Russian) // Izvestiya visshix uchebnix zavedenii. Povoljskii rayon, 2016. № 3(39). P. 105-113.
[11] Karpov V. A., Xananov V. A. Universal measuring transformation for the differential capacity sensitive element (in Russian) // Vestnik GGTU imeni P. O. Suxogo, 2014. № 1. P. 91-96.
[12] Frayden J. Modern sensors: the directory (in Russian). –Moscow: Texnosfera, 2005. -592 p.
[13] Romanov V. G. Moisture meter test of hard substances (in Russian). -Moscow: Izdatel'stvo standartov, 1983. -176 p.
[14] Krichevskii E. S. and at el. Hard and loose substances moisture control (in Russian). -Moscow: Energoatomizdat, 1986, -136 p.
[15] Men'shikov A. M. The methodical errors testing dielcometric moisture meters in using of moisture imitators (in Russian) // Izmeritel'naya texnika, 1996. № 1. P. 49.
[16] Royfe V. S. The decreasing way of methodic errors of moisture by first capacity transformations (in Russian) // Izmeritel'naya texnika, 1996. № 7. P. 85.
[17] Jejora A. A. Capacity transformations and their calculation methods (in Russian). –Minsk: «Belarusskaya nauka», 2008, -p. 352.
[18] Ismatullayev P. R., Nasirov T. Z., Jabborov X. Sh. Expression for the capacity of the cylindrical converter of the grain and grain products sensor // Tenth world conference on intelligent systems for industrial automation. -Tashkent, Uzbekistan. 25-26 October, 2018. P. 388-390.
Cite This Article
  • APA Style

    Tulkun Zakirovich Nasirov, Patxulla Raxmatovich Ismatullayev, Xamdam Shaymardonovich Jabborov. (2019). Expression for Capacity of the Cone Type Converter of the Grain and Grain Products Sensor. International Journal of Sensors and Sensor Networks, 6(3), 38-42. https://doi.org/10.11648/j.ijssn.20180603.11

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    ACS Style

    Tulkun Zakirovich Nasirov; Patxulla Raxmatovich Ismatullayev; Xamdam Shaymardonovich Jabborov. Expression for Capacity of the Cone Type Converter of the Grain and Grain Products Sensor. Int. J. Sens. Sens. Netw. 2019, 6(3), 38-42. doi: 10.11648/j.ijssn.20180603.11

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    AMA Style

    Tulkun Zakirovich Nasirov, Patxulla Raxmatovich Ismatullayev, Xamdam Shaymardonovich Jabborov. Expression for Capacity of the Cone Type Converter of the Grain and Grain Products Sensor. Int J Sens Sens Netw. 2019;6(3):38-42. doi: 10.11648/j.ijssn.20180603.11

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  • @article{10.11648/j.ijssn.20180603.11,
      author = {Tulkun Zakirovich Nasirov and Patxulla Raxmatovich Ismatullayev and Xamdam Shaymardonovich Jabborov},
      title = {Expression for Capacity of the Cone Type Converter of the Grain and Grain Products Sensor},
      journal = {International Journal of Sensors and Sensor Networks},
      volume = {6},
      number = {3},
      pages = {38-42},
      doi = {10.11648/j.ijssn.20180603.11},
      url = {https://doi.org/10.11648/j.ijssn.20180603.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijssn.20180603.11},
      abstract = {The expression for the cone type transformation moisture meter capacity for grain and grain products, using which we can measure the moisture more accurately has been considered. The analytical expression for the proposed ourselves sensor construction capacity having truncated cone shape has been given. The dependence of construction capacity on the geometrical sizes of conducting compartment (height, internal and external radiuses) has been investigated. The values of the capacity by optimization sizes of the construction conducting compartment have been presented. It has been defined that the maximal capacity of the sensor equals to 9.26 pF and the capacity is nonlinear and decreasing monotonic down to zero.},
     year = {2019}
    }
    

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    T1  - Expression for Capacity of the Cone Type Converter of the Grain and Grain Products Sensor
    AU  - Tulkun Zakirovich Nasirov
    AU  - Patxulla Raxmatovich Ismatullayev
    AU  - Xamdam Shaymardonovich Jabborov
    Y1  - 2019/01/31
    PY  - 2019
    N1  - https://doi.org/10.11648/j.ijssn.20180603.11
    DO  - 10.11648/j.ijssn.20180603.11
    T2  - International Journal of Sensors and Sensor Networks
    JF  - International Journal of Sensors and Sensor Networks
    JO  - International Journal of Sensors and Sensor Networks
    SP  - 38
    EP  - 42
    PB  - Science Publishing Group
    SN  - 2329-1788
    UR  - https://doi.org/10.11648/j.ijssn.20180603.11
    AB  - The expression for the cone type transformation moisture meter capacity for grain and grain products, using which we can measure the moisture more accurately has been considered. The analytical expression for the proposed ourselves sensor construction capacity having truncated cone shape has been given. The dependence of construction capacity on the geometrical sizes of conducting compartment (height, internal and external radiuses) has been investigated. The values of the capacity by optimization sizes of the construction conducting compartment have been presented. It has been defined that the maximal capacity of the sensor equals to 9.26 pF and the capacity is nonlinear and decreasing monotonic down to zero.
    VL  - 6
    IS  - 3
    ER  - 

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Author Information
  • Faculty of Electronics and Automatics of the Tashkent State Technical University, Tashkent, Uzbekistan

  • Faculty of Electronics and Automatics of the Tashkent State Technical University, Tashkent, Uzbekistan

  • Faculty of Electronics and Automatics of the Tashkent State Technical University, Tashkent, Uzbekistan

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