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Metrological Aspects of Controlling the Rotational Movement Parameters of the Auger for Dewatering Solid Waste in a Garbage Truck

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EN
In the article, a device for measuring the parameters of the rotational movement of the auger for dewatering solid waste is proposed based on the analysis of signal processing methods and measurement of physical quantities. It can be used in the development of high-performance special vehicles for transporting waste as the main link in the structure of machines for the collection and primary processing of solid waste. The structural scheme of the means and block diagram of the microcontroller control program algorithm for implementation of the device for measuring the parameters of the rotational motion are proposed. The main technical characteristics of the proposed means are given. The results of experimental tests for measuring the parameters of rotational motion are shown. The results of experimental studies, which are given in the work, confirmed the reliability of the measured parameters.
Twórcy
  • Lublin University of Technology, Poland
  • Vinnytsya National Technical University, Ukraine
  • Vinnytsya National Technical University, Ukraine
  • Vinnytsya National Technical University, Ukraine
  • Vinnytsya National Technical University, Ukraine
  • Vinnytsya National Technical University, Ukraine
  • D. Serikbayev East Kazakhstan Technical University
  • D. Serikbayev East Kazakhstan Technical University
Bibliografia
  • [1] Verkhovna Rada Ukrainy. Lyst. 30. “Uhoda pro asotsiatsiiu mizh Ukrainoiu, z odniiei storony, ta Yevropeiskym Soiuzom ta yoho derzhavamy-chlenamy, z inshoi storony”, 2015. http://zakon2.rada.gov.ua/laws/show/984_011/page (in Ukrainian).
  • [2] EUR-Lex, “Consolidated text: Association Agreement between the European Union and the European Atomic Energy Community and their Member States, of the one part, and Ukraine, of the other part”, 2022. http://data.europa.eu/eli/agree_internation/2014/295/2022-10-25
  • [3] O. V. Bereziuk, “Matematychne modeliuvannia prohnozuvannia obiemiv utvorennia tverdykh pobutovykh vidkhodiv ta ploshch polihoniv i smittiezvalyshch v Ukraini,” Suchasni tekhnolohii, materialy i konstruktsii u budivnytstvi: naukovo-tekhnichnyi zbirnyk, 2(7), 88-91, 2009. (in Ukrainian).
  • [4] O. V. Bereziuk, “Hidropryvod znevodnennia ta ushchilnennia tverdykh pobutovykh vidkhodiv u smittievozi,” MPK(2016.01) B65F 3/00, Patent Ukrainy No. 109036 U, Serp. 10, 2016. (in Ukrainian).
  • [5] Kabinet Ministriv Ukrainy, “Pro zatverdzhennia Prohramy povodzhennia z tverdymy pobutovymy vidkhodamy,” Berez. 4, Postanova No. 265, 2004. http://zakon1.rada.gov.ua/laws/show/265-2004-%D0%BF (in Ukrainian).
  • [6] L. A. Khmara et al., “Algorithm to calculate work tools of machines for performance in extreme working conditions,” in Mechatronic Systems I. Applications in Transport, Logistics, Diagnostics and Control, Taylor & Francis Group, London, New York, 29-38, 2021.
  • [7] A. V. Osadchuk, A. A. Semenov, S. V. Baraban, E. A. Semenova and K. O. Koval, “Noncontact infrared thermometer based on a self-oscillating lambda type system for measuring the human body’s temperature,” Proc. of the 23rd International Crimean Conference “Microwave & Telecommunication Technology” (CriMiCo), 1069-1070, 2013.
  • [8] O.D. Azarov et al. “Method of correcting of the tracking ADC with weight redundancy conversion characteristic,” Proc. SPIE 9816, 98161V, 2015. https://doi.org/10.1117/12.2229101
  • [9] O. Osadchuk, K. Koval, M. Prytula and A. Semenov, “Comparative analysis of radiomeasuring frequency converters of the magnetic field,” Proc. of the XIII International Conference “Modern problems of radio engineering, telecommunications, and computer science”, 275-278, 2016. https://doi.org/10.1109/TCSET.2016.7452034
  • [10] O. Osadchuk, A. Semenov, O. Zviahin and A. Savytskyi, “Numerical method for processing frequency measuring signals from microelectronic sensors based on transistor structures with negative resistance,” Proc. IEEE First Ukraine Conference on Electrical and Computer Engineering (UKRCON), 721-725, 2017. https://doi.org/10.1109/UKRCON.2017.8100338
  • [11] O. O. Sydoruk, “Realizatsiia tsyfrovykh pryladiv na bazi Arduino,” XLV reh. nauk.-tekhn. konf. profesorsko-vykladatskoho skladu, spivrobitnykiv ta studentiv VNTU. 2016. https://conferences.vntu.edu.ua/index.php/all-fksa/all-fksa-2016/paper/ view/961/1070 (in Ukrainian).
  • [12] V. M. Cvjetkovic and U. Stankovic, “Arduino based physics and engineering remote laboratory,” International Journal of Online Engineering, 13(1), 87-105, 2017.
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  • [14] N. N. Mahzan, A. M.Omar, L. Rimon, S. Z. M. Noor and M. Z. Rosselan, “Design and development of an arduino based data logger for photovoltaic monitoring system,” International Journal of Simulation: Systems, Science and Technology, 17(41), 15.1-15.5, 2017. https://doi.org/10.5013/IJSSST.a.17.41.15
  • [15] J. Kim, L. Udpa and J. Kim, “Development and application of Arduino based scanning system for non-destructive testing,” International Journal of Applied Engineering Research, 11(14), 8217-8220, 2016.
  • [16] K. Baraka, et al., “Low cost Arduino/android-based energy-efficient home automation system with smart task scheduling,” Computational Intelligence, Communication Systems and Networks (CICSyN), 2013 Fifth International Conference on. IEEE, 296-301, 2013.
  • [17] V. V. Bohachuk and B. I. Mokin, “Metody ta zasoby vymiriuvalnoho kontroliu volohosti poroshkopodibnykh materialiv: monohrafiia,” Vinnytsia, Ukraina: UNIVERSUM-Vinnytsia, 141. 2008.
  • [18] O. V. Bereziuk, M. S.Lemeshev, V. V. Bohachuk and M. Duk, “Means for measuring relative humidity of municipal solid wastes based on the microcontroller Arduino UNO R3,” Proc. SPIE, 10808, 108083G, 2018. https://doi.org/10.1117/12.2501557
  • [19] O. V. Bereziuk et al., “Increasing the efficiency of municipal solid waste pre-processing technology to reduce its water permeability,” Biomass as Raw Material for the Production of Biofuels and Chemicals. Taylor & Francis Group. London, UK, 33-42, 2021.
  • [20] M. O. Yelizarov et al., “Fallen leaves and other seasonal biomass as raw material for producing biogas and fertilizers,” Biomass as Raw Material for the Production of Biofuels and Chemicals, Taylor & Francis Group, London, UK, 145-154. 2021.
  • [21] Atmel, “ATmega328 8-bit AVR Microcontroller with 4/8/16/32K Bytes In-System Programmable Flash: Datasheet,” 2010.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ab316ae6-497c-4ebd-9a7c-63ee75240499
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