APPROACH TO CONSTRUCTION OF A STRUCTURAL DIAGRAM OF  THE SYSTEM OF AUTOMATIC ELECTRIC HEATING FOR THE  FORMATION OF CONTROL ACTIONS

Sultonov  Sh Kh

A control action formulation approach for an automatic electric heating system has been developed. The structure of the automatic electric heating system is considered, as are the key benefits and drawbacks of the icing sensors used in

present automatic electric heating systems. It is concluded that a promising system based on a sensor for detecting ice or snow on a controlled surface is required.

Name of journalTransport vositalari va yoʻllari ilmiy jurnali
Number of editionIssue 3, 2023
View count 41

Web Address

DOI

Date of creation in the UzSCI system 11-05-2024

Read count 41

Date of publication 30-09-2023

Main LanguageIngliz

Pages46-49

Tags

block diagram

control action

electrical heating

icing detection system

English

A control action formulation approach for an automatic electric heating system has been developed. The structure of the automatic electric heating system is considered, as are the key benefits and drawbacks of the icing sensors used in

present automatic electric heating systems. It is concluded that a promising system based on a sensor for detecting ice or snow on a controlled surface is required.

Tags

block diagram

control action

electrical heating

icing detection system

Русский

Разработана схема формирования управляющих воздействий системы автоматического электрообогрева. Рассмотрена структура системы автоматического электрообогрева, проанализированы основные достоинства и недостатки датчиков обледенения существующих автоматических систем электрообогрева. Сделан вывод о необходимости разработки перспективной системы на базе датчика определения льда или снега на контролируемой поверхности.

Tags

структурная схема

управляющее воздействие

электрообогрев

система обнаружения обледенения

№ Author name position Name of organisation

1 Sultonov S.K. Katta o'qituvchi Tashkent State Transport University

№ Name of reference

1 1. Barausov, V. Algorithms of the control program of automatic cleaning systems of the turnouts based on the sensor for determining ice or snow on the controlled surface / V. Barausov, V. Bubnov, Sh. Sultonov, D. Barausov // Automation on Transport. – 2021, Vol. 7(2), P. 231–251. DOI: 10.20295/2412-9186-2021-7-2-231-251.

2 2. Sultonov, S. Elements of Technical Solutions of the System Purifying of Turnouts Based on an Icing Sensor / S. Sultonov, V. Bubnov // Springer Nature Switzerland AG, – 2022. – P. 889-897. – DOI 10.1007/978-3-030-96380-4_97.

3 3. GOST 2.701-2008. Yedinaya sistema konstruktorskoy dokumentatsii. Skhemy. Vidy i tipy. Obshchiye trebovaniya k vypolneniyu [Unified system of design documentation. Scheme. Types and types. General performance requirements]. Moscow, Standartinform Publ., 2009. 16 p. (in Russian).

4 4. Luminance measurements for urban lighting environment qualitative analysis by the example of Tula // Engineering journal of Don, 2019, No. 1(52), pp. 27 2. – P. 889-897. – DOI 10.1007/978-3-030-96380-4_97.

5 5. Bubnov V.P. Analysis of the sensors of the automatic heating system for railroad switches / V.P. Bubnov, V.A. Barausov, Sh.Kh. Sultonov // Automation, communication, informatics. - 2022. - No. 4. - P. 8-11. DOI: 10.34649/AT.2022.4.4.002

6 6. Sh. Sultonov, the structure of the control program and the method for detecting icing on the surface of the turnouts / Sh.Kh. Sultonov, N.А. Kritsky, Z.R. Sultonova / Intelligent technologies in transport. – 2020, No 2 (22). P. 59 -64.

7 7. Barausov, V. Control software for surface ice and snow detecting device / V.A. Barausov, V.P. Bubnov Sh.Kh. Sultonov // CEUR Workshop Proceedings. – 2019, Vol. 2556 P. 75-79. http://ceur-ws.org/Vol-2556/paper13.pdf. DOI: 10.24412/1613-0073-2556-75-79.

8 8. Barausov, V. Simulation modeling in methods and designs for detecting ice or snow buildup on control surface in Matlab/Simulink dynamic modeling environment / V.A. Barausov, V.P. Bubnov, Sh.Kh. Sultonov // CEUR Workshop Proceedings. – 2020. Vol. 2803. P. 136-141. https://ceur-ws.org/Vol-2803/paper19.pdf.

9 9. Barausov, V. Designing automatic railway switch heating system with innovative intelligent sensors / V.A. Barausov, V.P. Bubnov, Sh.Kh. Sultonov // CEUR Workshop Proceedings. – 2021, Vol. 2924, P. 3-9. https://ceur-ws.org/Vol-2924/paper1.pdf.

10 10. Svishchev, A.V. The use of UML diagrams in the design and development of applications / A. V. Svishchev, I. V. Belikov // Actual scientific research in the modern world. - 2021. – No. 5-2 (73). – P. 158-163.

11 11. A.D. Khomonenko, A.G. Basyrov, V.P. Bubnov [et al.]. Models and methods of research of information systems. Edited by A. D. Khomonenko. St. Petersburg: Publishing 9. Khomonenko A. D., Bubnov V. P., Zabrodin A.V., et al. Models and methods of research of information systems: Monography, St. Petersburg, LAN Publishing House, 2019, 204 p. House ‘DOE'. Russia. -204 p. 2019.

12 12. Gogolla, M. Analysis of UML Stereotypes within the UML Metamodel / M. Gogolla, B. Henderson-Sellers // Lecture Notes in Computer Science. – 2002. – Vol. 2460. – P. 84-99.

13 13. Kim, K.K., Ivanov, S.N. Raising of reliability of heat-generating electromechanical devices, international multi-conference on industrial engineering and modern technologies, FarEastCon 2019. 2019. p. 8934080. DOI: 10.1109/FarEastCon.2019.8934080

14 14. Vavilov, V.D. Sukonkin, A.N. Review of domestic and foreign icing alarms, Proceedings of NSTU Alekseeva R.E. 2013. No. 1. pp. 297-310.

15 15. Prourzin, O.V. Sultonov Sh.Kh. Influence of non-exponentiality of distribution laws on the reliability indicators of a two-channel cluster computing system. Siberian State University of Telecommunications and Informatics, 2021. pp. 248-251.

Waiting

№	Name of reference
1	1. Barausov, V. Algorithms of the control program of automatic cleaning systems of the turnouts based on the sensor for determining ice or snow on the controlled surface / V. Barausov, V. Bubnov, Sh. Sultonov, D. Barausov // Automation on Transport. – 2021, Vol. 7(2), P. 231–251. DOI: 10.20295/2412-9186-2021-7-2-231-251.
2	2. Sultonov, S. Elements of Technical Solutions of the System Purifying of Turnouts Based on an Icing Sensor / S. Sultonov, V. Bubnov // Springer Nature Switzerland AG, – 2022. – P. 889-897. – DOI 10.1007/978-3-030-96380-4_97.
3	3. GOST 2.701-2008. Yedinaya sistema konstruktorskoy dokumentatsii. Skhemy. Vidy i tipy. Obshchiye trebovaniya k vypolneniyu [Unified system of design documentation. Scheme. Types and types. General performance requirements]. Moscow, Standartinform Publ., 2009. 16 p. (in Russian).
4	4. Luminance measurements for urban lighting environment qualitative analysis by the example of Tula // Engineering journal of Don, 2019, No. 1(52), pp. 27 2. – P. 889-897. – DOI 10.1007/978-3-030-96380-4_97.
5	5. Bubnov V.P. Analysis of the sensors of the automatic heating system for railroad switches / V.P. Bubnov, V.A. Barausov, Sh.Kh. Sultonov // Automation, communication, informatics. - 2022. - No. 4. - P. 8-11. DOI: 10.34649/AT.2022.4.4.002
6	6. Sh. Sultonov, the structure of the control program and the method for detecting icing on the surface of the turnouts / Sh.Kh. Sultonov, N.А. Kritsky, Z.R. Sultonova / Intelligent technologies in transport. – 2020, No 2 (22). P. 59 -64.
7	7. Barausov, V. Control software for surface ice and snow detecting device / V.A. Barausov, V.P. Bubnov Sh.Kh. Sultonov // CEUR Workshop Proceedings. – 2019, Vol. 2556 P. 75-79. http://ceur-ws.org/Vol-2556/paper13.pdf. DOI: 10.24412/1613-0073-2556-75-79.
8	8. Barausov, V. Simulation modeling in methods and designs for detecting ice or snow buildup on control surface in Matlab/Simulink dynamic modeling environment / V.A. Barausov, V.P. Bubnov, Sh.Kh. Sultonov // CEUR Workshop Proceedings. – 2020. Vol. 2803. P. 136-141. https://ceur-ws.org/Vol-2803/paper19.pdf.
9	9. Barausov, V. Designing automatic railway switch heating system with innovative intelligent sensors / V.A. Barausov, V.P. Bubnov, Sh.Kh. Sultonov // CEUR Workshop Proceedings. – 2021, Vol. 2924, P. 3-9. https://ceur-ws.org/Vol-2924/paper1.pdf.
10	10. Svishchev, A.V. The use of UML diagrams in the design and development of applications / A. V. Svishchev, I. V. Belikov // Actual scientific research in the modern world. - 2021. – No. 5-2 (73). – P. 158-163.
11	11. A.D. Khomonenko, A.G. Basyrov, V.P. Bubnov [et al.]. Models and methods of research of information systems. Edited by A. D. Khomonenko. St. Petersburg: Publishing 9. Khomonenko A. D., Bubnov V. P., Zabrodin A.V., et al. Models and methods of research of information systems: Monography, St. Petersburg, LAN Publishing House, 2019, 204 p. House ‘DOE'. Russia. -204 p. 2019.
12	12. Gogolla, M. Analysis of UML Stereotypes within the UML Metamodel / M. Gogolla, B. Henderson-Sellers // Lecture Notes in Computer Science. – 2002. – Vol. 2460. – P. 84-99.
13	13. Kim, K.K., Ivanov, S.N. Raising of reliability of heat-generating electromechanical devices, international multi-conference on industrial engineering and modern technologies, FarEastCon 2019. 2019. p. 8934080. DOI: 10.1109/FarEastCon.2019.8934080
14	14. Vavilov, V.D. Sukonkin, A.N. Review of domestic and foreign icing alarms, Proceedings of NSTU Alekseeva R.E. 2013. No. 1. pp. 297-310.
15	15. Prourzin, O.V. Sultonov Sh.Kh. Influence of non-exponentiality of distribution laws on the reliability indicators of a two-channel cluster computing system. Siberian State University of Telecommunications and Informatics, 2021. pp. 248-251.