Email this article Development of a Functional Model of a Dew Point Temperature Converter
- Authors: Mikhin S.O.1, Koshkur O.N.1, Ganzha V.A.2
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Affiliations:
- Progress High-Voltage Electronic Components Plant LLC
- Siberian Federal University
- Issue: Vol 14, No 3 (2024)
- Pages: 234-242
- Section: Analytical Methods and Instruments
- URL: https://journals.eco-vector.com/2227-572X/article/view/634259
- DOI: https://doi.org/10.22184/2227-572X.2024.14.3.234.242
- ID: 634259
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Abstract
The article describes the process of forming a functional model of a converter capable of measuring the dew point temperature of water in natural gas in the range from +20 to –60 °C. The blocks and subsystems of the functional model are defined that provide the functions of data collection and processing, data storage and distribution in a permanent storage device of an electronic board, the formation of a calibration table, the conversion of the desired value according to the calibration characteristic into a DC output electrical signal. A theoretical (virtual) model has been prepared for further work on the implementation of the concept of a dew point temperature converter on a domestic element base.
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About the authors
Sergey O. Mikhin
Progress High-Voltage Electronic Components Plant LLC
Author for correspondence.
Email: priborostroenie@zvekprogress.ru
ORCID iD: 0009-0008-6518-277X
Head of the Advanced Development Department
Russian Federation, UkhtaOleg N. Koshkur
Progress High-Voltage Electronic Components Plant LLC
Email: zvekpost@mail.ru
ORCID iD: 0009-0006-6583-5043
General Director
Russian Federation, UkhtaVladimir A. Ganzha
Siberian Federal University
Email: vladimirganzha@yandex.ru
ORCID iD: 0000-0002-0647-8502
Doctor of Technical Sciences, Professor of the Department of Fuel Supply and Fuel and Lubricants
Russian Federation, KrasnoyarskReferences
- GOST 20060-2021: Natural gas. Determination of the dew point temperature [Electronic resource]. URL: https://rosgosts.ru/file/gost/75/060/gost_20060–2021.pdf (date of application: 03.29.2024).
- Rosstat: Russia in numbers, 2019. [Electronic resource]. URL: https://nangs.org/analytics/rosstat-rossiya-v-tsifrakh (date of reference: 03.29.2024).
- Uzyakov R. N., Chirkov Yu.A., Kushnarenko V. M., Poyarkova E. V. The influence of unpredictable factors on corrosion damage to pipelines and equipment. Oil and gas business. 2019;6:87–100.
- Mikhin S. O., Kopchikov A. E., Aginey R. V. Experimental study of the effect of a poroobrazovator on the characteristics of ceramics used in the design of humidity sensors. Sensors and systems. 2020;6:38–44.
- Mikhin S. O., Kopchikov A. E., Aginey R. V. Investigation of the properties of sorption-capacitive gas humidity sensors based on porous ceramics. Sensors and systems. 2020. 9:46–52.
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