Intelligent Control System Architecture for Phosphorus Production from Apatite-Nepheline Ore Waste
This paper proposes multilevel architecture for an intelligent control system for the complex chemical energy technological process of yellow phosphorus production from apatite-nepheline ore processing waste. The research revealed that, when controlling this process, one has to deal with large amoun...
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MDPI AG
2021-10-01
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Series: | Energies |
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Online Access: | https://www.mdpi.com/1996-1073/14/20/6469 |
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author | Maksim Dli Andrey Puchkov Artem Vasiliev Elena Kirillova Yuri Selyavskiy Nikolay Kulyasov |
author_facet | Maksim Dli Andrey Puchkov Artem Vasiliev Elena Kirillova Yuri Selyavskiy Nikolay Kulyasov |
author_sort | Maksim Dli |
collection | DOAJ |
description | This paper proposes multilevel architecture for an intelligent control system for the complex chemical energy technological process of yellow phosphorus production from apatite-nepheline ore processing waste. The research revealed that, when controlling this process, one has to deal with large amounts of multiformat and polymodal information, and control goals differ at different levels not only in effectiveness criteria, but also in the structuredness of the level problems. On this basis, it is proposed that intelligent methods be used for the implementation of information processes and control goals at individual levels and the whole system. The artificial intelligence methods underlying the informational model of a control system offer solutions to problems of analyzing control processes at different hierarchy levels, namely the initial level of sensing devices, the levels of programmable logic controllers, dispatching of control and production processes, enterprise management and strategic planning. Besides, the intelligent control system architecture includes analytical and simulation models of processes occurring in the multistage procedure of ore waste processing by a plant consisting of a granulating machine, a conveyor-type multichambercalcining machine, and an ore thermal furnace. The architecture of information support for the control system comprises a knowledge-based inference block intended for implementing the self-refinement of neural network and simulation models. Fuzzy logic methods are proposed for constructing this block. The paper considers the deployment of control algorithms for a phosphorus production system using the Matlab software environment on the basis of a modern complex system development paradigm known as the model-oriented design concept. |
first_indexed | 2024-03-10T06:36:58Z |
format | Article |
id | doaj.art-c4311070203a4eb1b9e25adf2a6dd071 |
institution | Directory Open Access Journal |
issn | 1996-1073 |
language | English |
last_indexed | 2024-03-10T06:36:58Z |
publishDate | 2021-10-01 |
publisher | MDPI AG |
record_format | Article |
series | Energies |
spelling | doaj.art-c4311070203a4eb1b9e25adf2a6dd0712023-11-22T18:03:37ZengMDPI AGEnergies1996-10732021-10-011420646910.3390/en14206469Intelligent Control System Architecture for Phosphorus Production from Apatite-Nepheline Ore WasteMaksim Dli0Andrey Puchkov1Artem Vasiliev2Elena Kirillova3Yuri Selyavskiy4Nikolay Kulyasov5Department of Information Technology in Economics and Management, National Research University “Moscow Power Engineering Institute” (Smolensk Branch), 214013 Smolensk, RussiaDepartment of Information Technology in Economics and Management, National Research University “Moscow Power Engineering Institute” (Smolensk Branch), 214013 Smolensk, RussiaRector, Moscow University for Industry and Finance “Synergy”, 129090 Moscow, RussiaDepartment of Information Technology in Economics and Management, National Research University “Moscow Power Engineering Institute” (Smolensk Branch), 214013 Smolensk, RussiaDepartment of Economics and Trade, Plekhanov Russian University of Economics (Smolensk Branch), 214030 Smolensk, RussiaHigher School of Tariff Regulation, Plekhanov Russian University of Economics, 117997 Moscow, RussiaThis paper proposes multilevel architecture for an intelligent control system for the complex chemical energy technological process of yellow phosphorus production from apatite-nepheline ore processing waste. The research revealed that, when controlling this process, one has to deal with large amounts of multiformat and polymodal information, and control goals differ at different levels not only in effectiveness criteria, but also in the structuredness of the level problems. On this basis, it is proposed that intelligent methods be used for the implementation of information processes and control goals at individual levels and the whole system. The artificial intelligence methods underlying the informational model of a control system offer solutions to problems of analyzing control processes at different hierarchy levels, namely the initial level of sensing devices, the levels of programmable logic controllers, dispatching of control and production processes, enterprise management and strategic planning. Besides, the intelligent control system architecture includes analytical and simulation models of processes occurring in the multistage procedure of ore waste processing by a plant consisting of a granulating machine, a conveyor-type multichambercalcining machine, and an ore thermal furnace. The architecture of information support for the control system comprises a knowledge-based inference block intended for implementing the self-refinement of neural network and simulation models. Fuzzy logic methods are proposed for constructing this block. The paper considers the deployment of control algorithms for a phosphorus production system using the Matlab software environment on the basis of a modern complex system development paradigm known as the model-oriented design concept.https://www.mdpi.com/1996-1073/14/20/6469information modelintelligent control systemswaste processing |
spellingShingle | Maksim Dli Andrey Puchkov Artem Vasiliev Elena Kirillova Yuri Selyavskiy Nikolay Kulyasov Intelligent Control System Architecture for Phosphorus Production from Apatite-Nepheline Ore Waste Energies information model intelligent control systems waste processing |
title | Intelligent Control System Architecture for Phosphorus Production from Apatite-Nepheline Ore Waste |
title_full | Intelligent Control System Architecture for Phosphorus Production from Apatite-Nepheline Ore Waste |
title_fullStr | Intelligent Control System Architecture for Phosphorus Production from Apatite-Nepheline Ore Waste |
title_full_unstemmed | Intelligent Control System Architecture for Phosphorus Production from Apatite-Nepheline Ore Waste |
title_short | Intelligent Control System Architecture for Phosphorus Production from Apatite-Nepheline Ore Waste |
title_sort | intelligent control system architecture for phosphorus production from apatite nepheline ore waste |
topic | information model intelligent control systems waste processing |
url | https://www.mdpi.com/1996-1073/14/20/6469 |
work_keys_str_mv | AT maksimdli intelligentcontrolsystemarchitectureforphosphorusproductionfromapatitenephelineorewaste AT andreypuchkov intelligentcontrolsystemarchitectureforphosphorusproductionfromapatitenephelineorewaste AT artemvasiliev intelligentcontrolsystemarchitectureforphosphorusproductionfromapatitenephelineorewaste AT elenakirillova intelligentcontrolsystemarchitectureforphosphorusproductionfromapatitenephelineorewaste AT yuriselyavskiy intelligentcontrolsystemarchitectureforphosphorusproductionfromapatitenephelineorewaste AT nikolaykulyasov intelligentcontrolsystemarchitectureforphosphorusproductionfromapatitenephelineorewaste |