DOI: 10.17587/prin.15.146-154

Information System for the Selection of Hydropneumatic Capacitive Vessels

N. A. Fedotov, Postgraduate Student, fedotov125@yandex.ru, S. V. Kovalev, Doctor of Technical Sciences, Associate Professor, Professor of Department, sseedd@mail.ru, O. A. Kovaleva, Doctor of Technical Sciences, Associate Professor, Professor of Department, solomina-oa@yandex.ru, Derzhavin Tambov State University, Tambov, 392036, Russian Federation

Corresponding author: Nikita A. Fedotov, Postgraduate Student, Derzhavin Tambov State University, Tambov, 392036, Russian Federation, E-mail: fedotov125@yandex.ru

This article describes an algorithm for the automatic selection of hydropneumatic capacitive vessels used for household and industrial purposes. The suggested informational system makes it possible to reduce the working time spent on the selection of equipment and increase the relevance of the analyzed information. The article discusses a detailed description of the design of pneumohydroaccumulators, as well as provides examples of calculations of their main characteristics. The main task we needed to solve was a multi-criteria choice, and the article provides an overview of methods for solving this problem. In addition to these methods, we analyzed information systems that allow one to select suitable equipment among various alternatives. Based on the analysis of methods and similar software solutions, the authors suggested an information system and an algorithm for automatic selection of hydraulic accumulators by searching for options that meet the parameters specified by the system user. Also, the article discusses the process of purchasing capacitive equipment. There was demonstrated a logical model of the database structure storing the technical characteristics of the equipment which reflects objects of the information system and their connections. In this article we presented and argued the software for development of a specified information system. The development of the information system was based on the "1С platform: The enterprise". The task of selecting hydropneumatic capacitive vessels was solved by a request that can be interacted with through a report in the information system. This report allows the user to search for equipment by quantitative and qualitative characteristics: volume, operating pressure, vessel material, flange material, installation type (vertical or horizontal), availability of legs, cost, manufacturer or supplier. The report options allow users to search for equipment both in accordance with the specified parameters and with a deviation from them but only if the parameter is quantitative. The results of the report are ordered by relevance to the criteria specified by the user. The operation of the report query aggregating data was reflected in the flowchart. The article presents a situation where the user solves the selection problem by using capabilities of the report. The problem of multi-criteria selection was formulated in a way to demonstrate how a clear parameter of the report becomes fuzzy, and our solution of it allows you to find more alternative options with sorting by relevance helping you to identify the most suitable pneumohydroaccumulator. This software package was registered in the state registry of computer programs.

Keywords: information system, selection of pneumohydroaccumulators, data aggregation, relevance of information, database

pp. 146–154

For citation:
Fedotov N. A., Kovalev S. V., Kovaleva O. A. Information System for the Selection of Hydropneumatic Capacitive Vessels, Programmnaya Ingeneria, 2024, vol. 15, no. 3, pp. 146—154. DOI: 10.17587/prin.15.146-154. (in Russian).

References:

• Nikitaev I. V. The choice of parameters of the hydraulic accumulator of the depreciation system of the working equipment of lifting and transport vehicles with a rigid suspension, Bulletin of the Volga State Academy of Water Transport, 2012, no. 30, pp. 96—102 (in Russian).
• Rushnikov A. Yu. Calculation of the volume of the accumulator tank when supplying water to the water supply network, Plumbing, Heating, Air conditioning, 2020, no. 7 (223), pp. 26—29 (in Russian).
• Malybaev N. S., Kasenov A. Zh., Abishev K. K. Recommendations on the choice of a hydraulic accumulator for a hydraulic system, Science and Technology of Kazakhstan, 2020, no. 1, pp. 86—93 (in Russian).
• Steuer R. Multi-criteria optimization. Theory, calculations and applications. Translated from the English by E. M. Stolyarova / Ed. by A. V. Lotov. Moscow, Radio and Communications, 1992, 504 p. (in Russian).
• Orlov A. I. Organizational and economic modeling, Moscow, Publishing House of the Bauman Moscow State Technical University, 2009, 624 p. (in Russian).
• Khvostov A. V., Makarov O. Yu. Complex criterion of optimality when using evolutionary modeling methods, Proceedings of the international symposium "Reliability and quality", 2020, no. 1, pp. 238—241 (in Russian).
• Taik A. M., Lupin S. A., Balabaev S. A. Features of the application of the full search algorithm to solve the quadratic assignment problem, International Journal of Open Information Technologies, 2023, vol. 11, no. 7. pp. 60—68.
• Amany A. S., Haitham A. E., Aboelfetouh Ahmed. Comparative analysis of AHP, FAHP and NeutrosophicAHP based on multi-criteria for adopting ERPS, Neutrosophic Sets and Systems, 2021, no. 41, pp. 63—88.
• Canco I., Kruja D., Iancu T. AHP, a Reliable Method for Quality Decision Making: A Case Study in Business, Sustainability, 2021, no. 13, 15 p. DOI: 10.3390/su132413932.
• Sequeira M., Hilletofth P., Adlemo A. AHP-based support tools for initial screening of manufacturing reshoring decisions, Journal of Global Operations and Strategic Sourcing, 2021, vol. 14, no. 3, pp. 502—527. DOI: 10.1108/JGOSS-07-2020-0037.
• Titarev D. V., Trunnikov M. V., Volodin P. Yu. Design and development of a software package for automatic selection of pumping stations for water supply and formation of technical and commercial proposals, Information and mathematical technologies in science and management, 2021, no. 2 (22), pp. 105—114. DOI: 10.38028/ESI.2021.22.2.011 (in Russian).
• Egorov A. F., Savitskaya T. V., Dementienko A. V. In­formation modeling system of equipment protection from corrosion, Software products and systems, 2016, no. 1, pp. 120—125. DOI: 10.15827/0236-235x.113.120-125 (in Russian).
• Kostyukova T. P., Gainetdinov R. R. Information system for selecting the composition of equipment for a combined power supply system for medical and preventive institutions using renewable energy sources, Naukovedenie, 2016, vol. 8, no. 4, pр. 10 (in Russian).
• Batyrgazieva D. R., Guseva E. V., Menshutina N. V. Information system for the selection of conditions and equipment for the cultivation of mammalian cells, Bulletin of VGUIT, 2017, vol. 79, no. 4, pp. 65—70. DOI: 10.20914/2310-1202-2017-4-65-70 (in Russian).
• Menshikh A. V., Menshikh T. V. A set of programs for optimizing the choice of options for actions in ergatic control systems for special purposes, Bulletin of the Ministry of Internal Affairs of Russia, 2021, no. 3, pp. 92—100 (in Russian).
• Soloveychik K. A., Leventsov V. A., Farber E. M. Model of equipment selection during technical re-equipment of the en­terprise, Organizer of production, 2018, vol. 26, no. 2, pp. 84—94. DOI: 10.25065/1810-4894-2018-26-2-84-94 (in Russian).