Application of Compression Foamfor Extinguishing Fires at Oil and Gas Industry Facilities at Low Temperatures

Aleshkov, M. V.; Fedyaev, Vladislav D.; Gumirov, A. S.; SHULPINOV, A.A.

doi:10.25257/fe.2020.1.8-15

2020

DOI: 10.25257/fe.2020.1.8-15

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Application of Compression Foamfor Extinguishing Fires at Oil and Gas Industry Facilities at Low Temperatures

M. V. Aleshkov¹,

Vladislav D. Fedyaev²,

A. S. Gumirov³

et al.

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2024

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Cited by 2 publications

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Средства Получения И Перспективы Применения Компрессионной Пены В Пожаротушении

Сизинова

2024

Сибирский Пожарно-Спасательный Вестник

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Предметом статьи являются современные технологии тушения пожаров, основанные на компрессионной пене. Цель исследования - изучение средств получения и перспектив применения компрессионной пены в пожаротушении. Представлена схема изготовления компрессионной пены (пенный концентрат выступает в качестве пенообразователя) и схема автономной установки изготовления компрессионной пены. Отмечено, что одним из существенных преимуществ CAFS является возможность создания готового продукта, соответствующего конкретному типу горючего или конкретной ситуации. Определены характеристики продукта SmartCAFS. Представлена типология использования компрессионной пены в зависимости от типа инцидента. Приведены результаты испытания на огнестойкость различных пен. Системы пожаротушения, основанные на применении компрессионной пены, получают широкое распространение, поскольку такая технологии не нуждается в большом количестве воды, позволяет быстро покрывать большие площади, сводя к минимуму любой причиненный ущерб и риск дальнейшего распространения пожара. Кроме того, системы пенообразования на сжатом воздухе можно разместить на гораздо меньшей площади, чем альтернативные решения, что значительно снижает требования к инфраструктуре и расходы. Перспективы развития систем CAFS заключаются в их интеграции с цифровыми технологиями. The subject of the article is modern fire extinguishing technologies based on compression foam. The purpose of the study is to study the means of obtaining and the prospects for using compression foam in firefighting. A diagram of the production of compression foam is presented (the foam concentrate acts as a foaming agent) and a diagram of an autonomous installation for the production of compression foam. It is noted that one of the significant advantages of CAFS is the ability to create a finished product that matches a specific type of fuel or a specific situation. The characteristics of the SmartCAFS product have been defined. A typology of the use of compression foam depending on the type of incident is presented. The results of fire resistance tests of various foams are presented. Fire extinguishing systems based on the use of compression foam are becoming widespread because this technology does not require large amounts of water, allows it to quickly cover large areas, minimizing any damage caused and the risk of further spread of the fire. In addition, compressed air foam systems can be installed in a much smaller footprint than alternative solutions, significantly reducing infrastructure requirements and costs. The prospects for the development of CAFS systems lie in their integration with digital technologies.

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Средства Получения И Перспективы Применения Компрессионной Пены В Пожаротушении

Сизинова

2024

Сибирский Пожарно-Спасательный Вестник

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Means of Production and Perspectives of Compression Foam Application in Fire Fighting

Sizonova

2024

Scientific and Analytical Journal «Vestnik Saint-Petersburg University of State Fire Service of EMERCOM of Russia»

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The subject of the article is modern fire extinguishing technologies based on compression foam. The purpose of the study is to study the means of obtaining and the prospects for using compression foam in fire fighting. Methods: analysis and synthesis, modeling. The results obtained indicate that compression foam has a number of advantages compared to water and conventional air-aspirated foam, so it can be used to extinguish fires in many industries and areas. A diagram of the production of compression foam is presented (the foam concentrate acts as a foaming agent) and a diagram of an autonomous installation for the production of compression foam. It is noted that one of the significant advantages of CAFS is the ability to create a finished product that matches a specific type of fuel or a specific situation. The characteristics of the SmartCAFS product have been defined. A typology of the use of compression foam depending on the type of incident is presented. The results of fire resistance tests of various foams are presented. It is concluded that fire suppression systems using compression foam have significant advantages, such as minimizing the spread of fire, the volume of water required to cover large areas, costs and placement, and the integration of CAFS with digital technologies.

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Application of Compression Foamfor Extinguishing Fires at Oil and Gas Industry Facilities at Low Temperatures

Cited by 2 publications

References 0 publications

Средства Получения И Перспективы Применения Компрессионной Пены В Пожаротушении

Средства Получения И Перспективы Применения Компрессионной Пены В Пожаротушении

Means of Production and Perspectives of Compression Foam Application in Fire Fighting

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