Shvydenko Andrii Valeriyovich

@csbc.edu.ua

Associate Professor, DEPARTMENT OF «COMPUTER ENGINEERING AND INFORMATION TECHNOLOGIES»
Cherkasy State Professional Business College

Shvydenko Andrii Valeriyovich


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https://researchid.co/shvydenko

RESEARCH, TEACHING, or OTHER INTERESTS

Computer Science, Modeling and Simulation, Physics and Astronomy, Safety, Risk, Reliability and Quality
8

Scopus Publications

127

Scholar Citations

7

Scholar h-index

5

Scholar i10-index

Scopus Publications

  • DETERMINING DYNAMIC PROCESSES IN A TANK AFTER ITS SEPARATION FROM THE BOTTOM DURING A FIRE
    Mykhailo Nesukh, Andriy Subota, Andrii Shvydenko, Olga Nekora, Oleh Kulitsa, Mykhailo Kropyva
    Eastern European Journal of Enterprise Technologies, 2025
    The object of this study is the process of separating the body of a vertical steel tank from the bottom under the influence of emergency thermal and dynamic loads characteristic of fires at tank farms. The task addressed was to predict parameters of the trajectory of movement of a vertical steel tank with fuel when it is separated under the action of internal excess pressure due to the thermal effects of a fire. The dynamic processes of destruction of the weld at the bottom of the tank enclosure and the processes of fuel leakage from it were investigated. During the research, a computer model of the process of separation of a part of the tank was substantiated, which takes into account the geometric and physical nonlinearity of the material behavior under such conditions, as well as hydrodynamic processes during fuel leakage. Computer simulation showed that the height of the tank's flight when it is separated from the bottom depends on its filling level and total volume. At the same time, a lower filling level of the tank and its smaller volume determine a lower height of its bouncing. This is explained by the fact that the increase in the weight of the mechanical system, which is a tank with an oil product, leads to an increase in energy for the corresponding bouncing height. To describe the revealed patterns, a regression analysis was conducted. As a result, empirical dependences were established between the kinematic parameters of the bouncing trajectory, the design characteristics of the tank, and its filling level. The acceptable adequacy of the data obtained by the revealed regression dependence was shown. The revealed patterns are a scientific basis for compiling practical recommendations on technological requirements for storing oil products in vertical tanks to reduce the risk of their bouncing over long distances during an internal explosion due to a fire
  • Theoretical Prerequisites for Creating a Fire-Extinguishing Solution Based on Water-Absorbing Polymer EcoflocF-07 for Extinguishing Fires in Ecosystems
    Anatolii Kodrik, Oleksandr Titenko, Sergiy Zhartovskyi, Andriy Borisov, Andriy Shvydenko
    Key Engineering Materials, 2022
    Extinguishing fires in ecosystems has features compared to extinguishing fires in residential and industrial buildings, due to the composition and structure of combustible materials, which can form many foci of smoldering and have the ability to re-ignite, have a relatively low fire load compared to man-made ones. All this leads to high costs of water for extinguishing, carrying out operations for additional extinguishing of fires that occur after the main extinguishing and sets special requirements for aqueous extinguishing agents for their extinguishing.The paper analyzes the current state of the availability and trends of development in the world and domestic practice of effective water extinguishing agents and technologies for their use. Possible ways to improve recipes and increase the efficiency of fire extinguishing substances are outlined, taking into account, first of all, the criteria of efficiency, economy and environmental friendliness.It is noted that the main direction of increasing the fire extinguishing capacity of water is to create combined fire extinguishing solutions that can combine several methods of extinguishing in one technological operation: cooling, isolation and inhibition, which, other things being equal, reduces fire extinguishing consumption and extinguishing efficiency. An integrated direction of increasing the fire-extinguishing capacity of water can be considered to increase the coefficient of active use of water by reducing the surface tension of the fire-extinguishing solution, increasing the wettability and viscosity of water by introducing appropriate additives, obtaining optimal droplet dispersion.
  • Research of disclosure of relief venting structures with polycarbonate fencing in conditions of explosion
    Serhii Pozdieiev, Vadym Nizhnyk, Yuriy Pidhoretskiy, Andriy Shvydenko
    Iop Conference Series Materials Science and Engineering, 2021
    The article considers the processes of release of the openings of relief venting structures based on honeycomb polycarbonate sheets under action of an explosion. The use of honeycomb polycarbonate sheets enables saving transparent fence against destruction, decreasing risks of human traumatism with glass shards, reduce weight of relief venting structures. There were investigated the conditions of the ratio of the opening sizes of the sections of relief venting structures with honeycomb polycarbonate sheets, under which this opening is reliably released to reduce the pressure during the explosion to safe values. A mathematical model was proposed that establishes a relationship between the value of the explosion pressure and the opening size at which the opening of relief structures with honeycomb polycarbonate sheets. The article proposes a calculation method for designing the sections of relief structures with honeycomb polycarbonate sheets using nomograms. The use of developed method lets significantly simplify calculating for design of relief structures with honeycomb polycarbonate sheets.
  • Determination of the Charring Rate of Timber to Estimate the Fire Resistance of Structures at Real Temperature Modes of Fires
    Taras Shnal, Serhii Pozdieiev, Stanislav Sidnei, Andrii Shvydenko
    Lecture Notes in Civil Engineering, 2021
  • TEMPERATURE EFFECT ON THE THERMAL-PHYSICAL PROPERTIES OF FIRE-PROTECTIVE MINERAL WOOL CLADDING OF STEEL STRUCTURES UNDER THE CONDITIONS OF FIRE RESISTANCE TESTS
    Serhii Pozdieiev, Oleksandr Nuianzin, Olena Borsuk, Oksana Binetska, Andrii Shvydenko, Bogdan Alimov
    Eastern European Journal of Enterprise Technologies, 2020
    The value of the thermal conductivity coefficient depending on the temperature of the samples of steel rod fragments with fire-retardant cladding has been determined in the present research.The thermal conductivity coefficient of mineral wool fire-retardant cladding was determined; special patterns of its dependence on temperature were revealed. This is explained by the thermal decomposition with the release of thermal energy of inclusions between the fibers of mineral wool and its fibers at a temperature of 750 °C. The apparent minimum of the thermal conductivity factor for fire-retardant mineral wool cladding with a thickness of more than 50 mm is observed at a temperature of about 100 °C. This happens due to the fact that at this temperature the free moisture contained between the fibers of the mineral wool evaporates.Generalized temperature dependence of the thermal conductivity coefficient of mineral wool fire-retardant cladding has also been derived, in a tabular form. It can be used for calculating the temperature in steel structures with such fire protection. The thickness range for application is up to 80 mm for the specific heat capacity of 1,000 J/(kg °C) and a density of 200 kg/m3.It is shown how the obtained dependence can be used for predicting heating in steel structures with fire-retardant mineral wool cladding. The relative error between the calculated and experimental data was calculated. The Cochrane, Student, and Fischer criteria for the results of temperature calculation in steel structures with fire-retardant mineral wool cladding between the calculated and experimental data accept values that do not exceed the tabular quantities. This means that the results of the calculation using the obtained temperature dependence of the thermal conductivity coefficient are adequate
  • Improvement of the estimation method of the possibility of progressive destruction of buildings caused by fire
    S Pozdieiev, O Nekora, T Kryshtal, S Sidnei, A Shvydenko
    Iop Conference Series Materials Science and Engineering, 2019
    With the progressive destruction of building structures, socioeconomic losses reach the biggest level, especially when the buildings have a high degree of responsibility. For such buildings there is a standardized requirement to carry out a calculated estimation of the possibility of progressive destruction. The article outlines the main provisions of the calculation method as to the estimation of the possibility of progressive destruction, with the failure of one or more compressed elements, that must be removed from the general structural system of the building frame consisting of steel beams, CFST and reinforced concrete columns. The basic principle of the method is the hypothesis about formation plastic joints in beams and columns. The possibility of progressive destruction is estimated according to the energy criterion based on comparison of the work of internal and external forces on the possible displacements of the system, which in such conditions is geometrically variable. The proposed method is productive and cost-effective compared to existing methods that involve complex mathematical models and software complexes.
  • A method of experimental studies of heat transfer processes between industrial constructions
    Vadym Nizhnyk, Oksana Kyrychenko, Olexandr Tarasenko, Andrii Shvydenko, Serhii Hovalenkov
    Matec Web of Conferences, 2018
    A method of experimental study of heat transfer processes between industrial constructions during a fire was developed. Types of equipment necessary for the conduction of the experimental studies were determined. A new type of specimen to be used as the one to be studied when conducting experimental studies was developed. Installation sites of thermocouples and heat flux detector on the specimen under study are shown as layout. Installation sites of the specimens under study relative to heat radiation source were substantiated experimentally. Succession of the conduction of the experimental studies of heat transfer processes between industrial constructions during a fire was developed which consists of the following procedures: production of specimens for the studies, measurement and recording on ambient conditions, measuring of temperature and heat flux on the surface of the specimen under study, and filling 55B test fire with water and diesel fuel. It was established that average temperatures and heat flux density values as well as flame geometry should be measured when performing experimental studies.
  • Experimental study of temperature mode of a fire in a cable tunnel
    Oleksandr Nuianzin, Serhii Pozdieiev, Viacheslav Hora, Andrii Shvydenko, Taras Samchenko
    Eastern European Journal of Enterprise Technologies, 2018
    We established, based on the conducted research into a change in temperature in the cable tunnel during fire, that in the combustion zone the temperature grows faster in comparison with the standard temperature mode of a fire. This indicates the need for testing fire resistance of construction structures of cable tunnels using the temperature regime that differs from the standard one.During the research, a scientifically-substantiated sequence of procedures was created, with a detailed selection of equipment and test samples, in order to provide reliable experimental data when studying the temperature regime of a fire in a cable tunnel.Thus, based on the results of our experimental study, we determined the temperature modes of a fire in different zones of the cable tunnel using the proposed procedure. The highest temperature is observed directly in the combustion zone. In the fire zone next to cables, it is 700‒900 °C; between a fire center zone and the opening for the discharge of combustion products, it is in the range of 250‒500 °C. In the zone between a fire center and the place of air head, the temperature reaches 80‒150 °C. The rate of flame propagation, in terms of direction, coincides with the direction of air flow twice as faster as in the opposite direction.Thus, we can argue that the research results obtained could be the basis for constructing mathematical models that describe fires in cable tunnels and might be used for the engineering estimation of fire resistance of building structures of cable tunnels.

RECENT SCHOLAR PUBLICATIONS

  • СУЧАСНІ ПІДХОДИ ДО ОЦІНЮВАННЯ СТІЙКОСТІ БУДІВЕЛЬ І СПОРУД В УМОВАХ ПРОГРЕСУЮЧОГО РУЙНУВАННЯ
    НА Швиденко А., Поздєєв С., Касярум С., Некора О., Отрош Ю.
    SCIENTIFIC MULTIDISCIPLINARY MONOGRAPH 1 (17), 58-63 , 2026
    2026
  • Determining dynamic processes in a tank after its separation from the bottom during a fire
    O Kulitsa, M Nesukh, A Subota, A Shvydenko, O Nekora, M Kropyva
    Eastern-European Journal of Enterprise Technologies , 2025
    2025
    Citations: 3
  • DETERMINING DYNAMIC PROCESSES IN A TANK AFTER ITS SEPARATION FROM THE BOTTOM DURING A FIRE
    ОВ Некора, М Несух, А Субота, АВ Швиденко, ОС Куліца, М Кропива
    2025
  • Динамічні процеси при відриві резервуара від днища внаслідок пожежі
    ММ Несух, АВ Субота, АВ Швиденко, ОВ Некора
    Проблеми надзвичайних ситуацій. Черкаси: НУЦЗ України, 2024. № 2 (40). 292с … , 2024
    2024
  • Особливості застосування сучасного математичного та фізичного моделювання для дослідження вогнестійкості будівельних конструкцій: колективна монографія
    А Швиденко, С Щіпець, АО Майборода, С Касярум, О Борсук
    Published by Primedia eLaunch https://primediaelaunch. com/ , 2024
    2024
  • УСТАНОВКА ДЛЯ ДОСЛІДЖЕННЯ В ЛАБОРАТОРНИХ УМОВАХ ХАРАКТЕРИСТИК ПІНОУТВОРЮВАЧА ДЛЯ ГАСІННЯ ПОЖЕЖ
    ВМ Нуянзін, Г Єлагін, АО Майборода, ОМ Нуянзін, М Кропива, ...
    НАЦІОНАЛЬНИЙ ОРГАН ІНТЕЛЕКТУАЛЬНОЇ ВЛАСНОСТІ , 2024
    2024
  • Патент на корисну модель" УСТАНОВКА ДЛЯ ДОСЛІДЖЕННЯ В ЛАБОРАТОРНИХ УМОВАХ ХАРАКТЕРИСТИК ПІНОУТВОРЮВАЧА ДЛЯ ГАСІННЯ ПОЖЕЖ"
    ВМ Нуянзін, ГІ Єлагін, АО Майборода, ОМ Нуянзін, МО Кропива, ...
    УКРНОІВІ , 2024
    2024
  • Патент на корисну модель" УСТАНОВКА ДЛЯ ДОСЛІДЖЕННЯ В ЛАБОРАТОРНИХ УМОВАХ ХАРАКТЕРИСТИК ПІНОУТВОРЮВАЧА ДЛЯ ГАСІННЯ ПОЖЕЖ"
    М Кропива, АО Майборода, Г Єлагін, В Нуянзін, О Алєксєєва, ...
    2024
  • ДОСЛІДЖЕННЯ ПРОЦЕСІВ РУЙНУВАННЯ ЗВАРНИХ З’ЄДНАНЬ В УМОВАХ ВІДРИВУ КОРПУСУ ВЕРТИКАЛЬНИХ СТАЛЕВИХ РЕЗЕРВУАРІВ ВІД ДНИЩА ПІД ЧАС ПОЖЕЖІ
    M Nesukh, A Subota, A Shvydenko, O Nekora
    Municipal economy of cities. Series:«Economy science» 4 (185), 186–196-186–196 , 2024
    2024
  • ДОСЛІДЖЕННЯ ПРОЦЕСІВ РУЙНУВАННЯ ЗВАРНИХ З’ЄДНАНЬ В УМОВАХ ВІДРИВУ КОРПУСУ ВЕРТИКАЛЬНИХ СТАЛЕВИХ РЕЗЕРВУАРІВ ВІД ДНИЩА ПІД ЧАС ПОЖЕЖІ
    ММ Несух, АВ Субота, АВ Швиденко, ОВ Некора
    Municipal economy of cities. Series:«Economy science» 4 (185), 186-196 , 2024
    2024
    Citations: 1
  • ЩОДО ПИТАННЯ СТВОРЕННЯ МАКЕТУ УСТАНОВКИ ДЛЯ ДОСЛІДЖЕННЯ ВПЛИВУ РІЗНИХ ФАКТОРІВ НА ТЕПЛОЄМНІСТЬ ВОДИ
    ОВ Борсук, ВМ Нуянзін, АО Майборода, МА Кришталь, ЯВ Змага, ...
    ЧІПБ ім. Героїв Чорнобиля НУЦЗ України , 2024
    2024
  • ХІМІЧНІ ПЕРЕТВОРЕННЯ В МОДИФІКОВАНОМУ БЕТОНІ ПРИ ЙОГО НАГРІВАННІ В УМОВАХ ПОЖЕЖІ
    ОВ Борсук, ВМ Нуянзін, АВ Швиденко, АО Майборода, ЯВ Змага, ...
    ЧІПБ ім. Героїв Чорнобиля НУЦЗ України , 2024
    2024
  • DYNAMIC PROCESSES DURING SEPARATION OF A TANK FROM THE BOTTOM AS A RESULT OF A FIRE
    M NESUKH, A SUBOTA, A SHVYDENKO, O NEKORA
    ПРОБЛЕМИ НАДЗВИЧАЙНИХ СИТУАЦІЙ Учредители: Национальный университет … , 2024
    2024
  • Experimental investigation of the strength of welded joints in the release of vertical steel tanks from the bottom during a fire. JOURNAL of Donetsk Mining Institute, 1 (54 …
    M Nesukh, A Subota, A Shvydenko, O Ivanenko
    2024
    Citations: 3
  • RESEARCH ON THE DESTRUCTION PROCESSES OF WELDED JOINTS UNDER CONDITIONS OF DETACHMENT OF THE VERTICAL STEEL TANK BODY FROM THE BOTTOM DURING A FIRE
    M Nesukh, A Subota, A Shvydenko, O Nekora
    MUNICIPAL ECONOMY OF CITIES Учредители: Харьковский национальный университет … , 2024
    2024
    Citations: 3
  • АНАЛІЗ ПРИЧИН ВІДРИВУ ВЕРТИКАЛЬНИХ СТАЛЬНИХ РЕЗЕРВУАРІВ ВІД ДНИЩА ПІД ЧАС ПОЖЕЖІ
    С Сідней
    ЧІПБ , 2024
    2024
  • ЕКСПЕРИМЕНТАЛЬНЕ ДОСЛІДЖЕННЯ МІЦНОСТІ ЗВАРНИХ З'ЄДНАНЬ ПРИ ВІДРИВІ ВЕРТИКАЛЬНИХ СТАЛЕВИХ РЕЗЕРВУАРІВ ВІД ДНИЩА ПІД ЧАС ПОЖЕЖІ
    АВ Субота, ММ Несух, АВ Швиденко, ОО Іваненко
    ВІСТІ Донецького гірничого інституту , 2024
    2024
  • Експериментальне дослідження міцності зварних з’єднань при відриві вертикальних сталевих резервуарів від днища під час пожежі.
    ОО Іваненко, ММ Несух, АВ Субота, АВ Швиденко
    Донецький національний технічний університет , 2024
    2024
  • ДОСЛІДЖЕННЯ ПРОЦЕСІВ РУЙНУВАННЯ ЗВАРНИХ З’ЄДНАНЬ В УМОВАХ ВІДРИВУ КОРПУСУ ВЕРТИКАЛЬНИХ СТАЛЕВИХ РЕЗЕРВУАРІВ ВІД ДНИЩА ПІД ЧАС ПОЖЕЖІ
    ОВ Некора, ММ Несух, АВ Субота, АВ Швиденко
    2024
  • Дослідження динамічних процесів при відриві резервуара від днища внаслідок пожежі
    ОВ Некора, ММ Несух, АВ Субота, АВ Швиденко
    НУЦЗ України , 2024
    2024

MOST CITED SCHOLAR PUBLICATIONS

  • Experimental study of temperature mode of a fire in a cable tunnel
    O Nuianzin, S Pozdieiev, V Hora, A Shvydenko, T Samchenko
    Восточно-Европейский журнал передовых технологий, 21-27 , 2018
    2018.0
    Citations: 24
  • Theoretical Prerequisites for Creating a Fire-Extinguishing Solution Based on Water-Absorbing Polymer Ecoflocf-07 for Extinguishing Fires in Ecosystems
    A Kodrik, O Titenko, S Zhartovskyi, A Borisov, A Shvydenko
    Key Engineering Materials 927, 87-104 , 2022
    2022.0
    Citations: 17
  • Temperature effect on the thermal-physical properties of fire-protective mineral wool cladding of steel structures under the conditions of fire resistance tests
    S Pozdieiev, O Nuianzin, O Binetska, O Borsuk, A Shvydenko, B Alimov
    Восточно-Европейский журнал передовых технологий 4 (12-106), 39-45 , 2020
    2020.0
    Citations: 13
  • Improvement of the estimation method of the possibility of progressive destruction of buildings caused by fire
    S Pozdieiev, O Nekora, T Kryshtal, S Sidnei, A Shvydenko
    IOP Conference Series: Materials Science and Engineering 708 (1), 012067 , 2019
    2019.0
    Citations: 11
  • Урахування впливу модифікаторів бетону залізобетонних балок при розрахунковому визначенні їх вогнестійкості.–на правах рукопису. Дисертація на здобуття наукового ступеня …
    АВ Поздєєв
    Український науково-дослідний інститут цивільного захисту, Київ , 2012
    2012.0
    Citations: 10
  • Cable tunnels temperature fire mode experimental study
    O Nuianzin, S Pozdieiev, V Hora, A Shvydenko, T Samchenko
    Eastern European Journal of Enterprise Technologies 3, 21 , 2018
    2018.0
    Citations: 8
  • Determination of the charring rate of timber to estimate the fire resistance of structures at real temperature modes of fires
    T Shnal, S Pozdieiev, S Sidnei, A Shvydenko
    International Scientific Conference EcoComfort and Current Issues of Civil … , 2020
    2020.0
    Citations: 7
  • Research of Disclosure of Relief Venting Structures with Polycarbonate Fencing in Conditions of Explosion
    S Pozdieiev, V Nizhnyk, Y Pidhoretskiy, A Shvydenko
    IOP Conference Series: Materials Science and Engineering 1021 (1), 012025 , 2021
    2021.0
    Citations: 6
  • Навчальний посібник: Рятувальнику про домедичну допомогу
    МГ Хлівний, ОМ Черненко, АВ Швиденко, ТВ Пархоменко
    Черкаси: ЧІПБ ім. Героїв Чорнобиля НУЦЗУ , 2017
    2017.0
    Citations: 6
  • A method of experimental studies of heat transfer processes between industrial constructions
    V Nizhnyk, O Kyrychenko, O Tarasenko, A Shvydenko, S Hovalenkov
    MATEC Web of Conferences 230, 02021 , 2018
    2018.0
    Citations: 4
  • Determining dynamic processes in a tank after its separation from the bottom during a fire
    O Kulitsa, M Nesukh, A Subota, A Shvydenko, O Nekora, M Kropyva
    Eastern-European Journal of Enterprise Technologies , 2025
    2025.0
    Citations: 3
  • Experimental investigation of the strength of welded joints in the release of vertical steel tanks from the bottom during a fire. JOURNAL of Donetsk Mining Institute, 1 (54 …
    M Nesukh, A Subota, A Shvydenko, O Ivanenko
    2024.0
    Citations: 3
  • RESEARCH ON THE DESTRUCTION PROCESSES OF WELDED JOINTS UNDER CONDITIONS OF DETACHMENT OF THE VERTICAL STEEL TANK BODY FROM THE BOTTOM DURING A FIRE
    M Nesukh, A Subota, A Shvydenko, O Nekora
    MUNICIPAL ECONOMY OF CITIES Учредители: Харьковский национальный университет … , 2024
    2024.0
    Citations: 3
  • Артем Биченко, Андрій Швиденко, Лариса Маладика, Максим Удовенко, Михайло Пустовіт, Сергій Ведула Розробка методики відбору проб для контролю небезпек хімічного та …
    В Нуянзін
    Черкаси , 2020
    2020.0
    Citations: 2
  • Метод розрахункової оцінки можливості прогресуючого руйнування будівель унаслідок пожежі
    СВ Поздєєв, АВ Швиденко, ВМ Зажома, ВА Радченко, ОВ Борсук
    Міжнародний науковий журнал Інтернаука, 74-79 , 2020
    2020.0
    Citations: 2
  • Olena Borsuk, Oksana Binetska, Andrii Shvydenko, Bogdan Alimov (2020)
    S Pozdieiev, O Nuianzin
    Temperature effect on the thermal-physical properties of fire-protective … , 0
    Citations: 2
  • ДОСЛІДЖЕННЯ ПРОЦЕСІВ РУЙНУВАННЯ ЗВАРНИХ З’ЄДНАНЬ В УМОВАХ ВІДРИВУ КОРПУСУ ВЕРТИКАЛЬНИХ СТАЛЕВИХ РЕЗЕРВУАРІВ ВІД ДНИЩА ПІД ЧАС ПОЖЕЖІ
    ММ Несух, АВ Субота, АВ Швиденко, ОВ Некора
    Municipal economy of cities. Series:«Economy science» 4 (185), 186-196 , 2024
    2024.0
    Citations: 1
  • Розробка методики відбору проб для контролю небезпек хімічного та радіоактивного походження при надзвичайних ситуаціях
    ВМ Нуянзін, АО Биченко, АВ Швиденко, ЛВ Маладика, МЮ Удовенко, ...
    Надзвичайні ситуації: попередження та ліквідація 4 (2), 64-77 , 2020
    2020.0
    Citations: 1
  • Удосконалення методу розрахункової оцінки можливості прогресуючого руйнування будівель унаслідок пожежі
    АВ Швиденко, СВ Поздєєв, ОМ Землянський, AЮ Новгородченко
    Надзвичайні ситуації: попередження та ліквідація 3 (2), 98-105 , 2019
    2019.0
    Citations: 1
  • Екологічна безпека: експлуатація ґрунтів у Черкаській області
    ОА Бужин, АВ Швиденко, ОС Куліца, РА Заєць, ВА Гора
    Екологічна безпека та збалансоване ресурсокористування, 53-58 , 2019
    2019.0
    Citations: 1