Information Processing Algorithms in Tasks of Monitoring and Predicting the State of Cryogenic Equipment
DOI:
https://doi.org/10.52575/2712-746X-2023-50-4-893-900Keywords:
computational algorithm, cryogenic equipment, equipment monitoring, remote monitoring, drainless storage, screen-vacuum thermal insulation, heat and mass transferAbstract
The article discusses the issues of collecting, processing and transmitting information during remote monitoring of the condition of stationary and transport cryogenic equipment used for long-term storage of cryogenic products. A solution to the problem of preventive informing dispatch services and the operating organization about the presence of a technical malfunction of a cryogenic vessel is outlined, which leads to an increase in vacuum pressure in the thermal insulation cavity, causing an increased heat flow from the environment and a significant change in pressure in the internal vessel over time. The structure of the information system for monitoring the condition of cryogenic equipment is presented. The article also gives a description of the computational algorithm for calculating the assessment of the technical condition of the screen-vacuum thermal insulation of a cryogenic vessel based on the deviation of the pressure growth rate, as well as the algorithm for calculating the assessment of the time of drainless storage taking into account changes in vacuum pressure in the heat-insulating cavity.
Downloads
References
Ряжских В.И., Сумин В.А., Хвостов А.А., Журавлев А.А., Семенихин О.А. 2020. Численное моделирование термоконцентрационной конвекции в криогенных резервуарах. Математические методы в технике и технологиях – ММТТ-2020. Т. 5. С. 17–20.
Солдатов Е.С. 2019. Вычислительный алгоритм прогнозирования времени бездренажного хранения криопродуктов в стационарных и транспортных сосудах. Научные ведомости Белгородского государственного университета. Серия: Экономика. Информатика. 46(3): 485–495. DOI: 10.18413/2411-3808-2019-46-3-485-495.
Balyk O., Zolotaeva M., Bogomolov A., Soldatov A. 2023. Cyber-physical test facility for certification of robotic unmanned aerial systems. Lecture Notes in Networks and Systems, 596 LNNS, 385–396. DOI: 10.1007/978-3-031-21435-6_33.
Bo W., Ruoyin L., Hong C. 2021. Characterization and Monitoring of Vacuum Pressure of Tank Containers with Multilayer Insulation for Cryogenic Clean Fuels Storage and Transportation. Applied Thermal Engineering. 187: 116569.
Chen L., Ai B., Chen S., Liang G. 2016. Simulation of Self-Pressurization in Cryogenic Propellant Tank. 12th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics: 1068-1073.
Huerta F., Vesovic V. 2021. CFD modelling of the isobaric evaporation of cryogenic liquids in storage tanks. International Journal of Heat and Mass Transfer, 176, 121419. DOI: 10.1016/j.ijheatmasstransfer.2021.121419.
Kang M., Kim J., You H., Chang. D. 2017. Experimental Investigation of Thermal Stratification in Cryogenic Tanks, Experimental Thermal and Fluid Science. DOI: 10.1016/j.expthermflusci.2017.12.017.
Kartuzova O.V., Kassemi M., Umemura Y., Kinefuchi K., Himeno T. 2020. CFD Modeling of Phase Change and Pressure Drop during Violent Sloshing of Cryogenic Fluid in a Small-Scale Tank. AIAA Propulsion and Energy 2020 Forum. DOI: 10.2514/6.2020-3794.
Larkin E., Akimenko T., Bogomolov A., Sharov, V. 2023a. Reliability of robot’s controller software. Lecture Notes in Computer Science, 14214 LNAI, 289–299.
Larkin E.V., Akimenko T.A., Bogomolov A.V. 2021. Modeling the reliability of the onboard equipment of a mobile robot. Izvestiya of Saratov University. Mathematics. Mechanics. Informatics, 21(3): 390–399. DOI: 10.18500/1816-9791-2021-21-3-390-399.
Larkin E.V., Akimenko T.A., Bogomolov A.V. 2023b. The swarm hierarchical control system. Lecture Notes in Computer Science, 13968 LNCS, 30–39. DOI: 10.1007/978-3-031-36622-2_3.
Lee S., Haskins C., Paltrinieri N. 2022. Digital Twin Concept for Risk Analysis of Oil Storage Tanks in Operations: a Systems Engineering Approach. Chemical Engineering Transactions. Vol. 90, pp. 157–162. DOI: 10.3303/CET2290027.
Lee D.-Y., Jo J.-S., Nyongesa A.J., Lee W.-J. 2023. Fatigue Analysis of a 40 ft LNG ISO Tank Container. Materials 2023, 16, 428. DOI: 10.3390/ma16010428.
Mourtzis D., Angelopoulos J., Panopoulos N. 2020. Intelligent Predictive Maintenance and Remote Monitoring Framework for Industrial Equipment Based on Mixed Reality. Frontiers in Mechanical Engineering, 6. DOI: 10.3389/fmech.2020.578379.
Saufi A., Calabria R., Chiariello F., Frassoldati A., Cuoci A., Faravelli T., Massoli P. 2019. An experimental and CFD modeling study of suspended droplets evaporation in buoyancy driven convection. Chemical Engineering Journal, 375, 122006. DOI: 10.1016/j.cej.2019.122006.
Short M.; Twiddle J. 2019. An Industrial Digitalization Platform for Condition Monitoring and Predictive Maintenance of Pumping Equipment. Sensors, 19, 3781. DOI: 10.3390/s19173781.
Soldatov E., Bogomolov A. 2021. Decision Support Models and Algorithms for Remote Monitoring of the Equipment State. CEUR Workshop Proceedings. Сер. "ITIDMS 2021 - Proceedings of the International Scientific and Practical Conference "Information Technologies and Intelligent Decision Making Systems"": 1–8.
Strotos G., Malgarinos I., Nikolopoulos N., Gavaises M. 2016. Predicting the evaporation rate of stationary droplets with the VOF methodology for a wide range of ambient temperature conditions. International Journal of Thermal Sciences, 109: 253–262. DOI: 10.1016/j.ijthermalsci.2016.06.022.
Tobin D., Bogomolov A., Golosovskiy M. 2022. Model of organization of software testing for cyber-physical systems. Studies in Systems, Decision and Control, 418, 51–60. DOI: 10.1007/978-3-030-95120-7_5.
Ustolina F., Scarponib G., Iannacconeb T., Cozzanib V., Paltrinieri N. 2022. Cryogenic Hydrogen Storage Tanks Exposed to Fires: a CFD Study. Chemical Engineering Transactions, 90, 535–540. DOI: 10.3303/CET2290090.
Abstract views: 41
Share
Published
How to Cite
Issue
Section
Copyright (c) 2023 Economics. Information Technologies
This work is licensed under a Creative Commons Attribution 4.0 International License.