Dissociation and ignition of methane hydrate when in contact with typical sources of fire hazard; Powder Technology; Vol. 427

Dissociation and ignition of methane hydrate when in contact with typical sources of fire hazard

Dettagli Bibliografici
Parent link:	Powder Technology.— .— Amsterdam: Elsevier Science Publishing Company Inc. Vol. 427.— 2023.— Article number 118776, 13 p.
Altri autori:	Gaydukova O. S. Olga Sergeevna, Dorokhov V. V. Vadim Valerjevich, Misyura S. Ya. Sergey Yakovlevich, Morozov V. S. Vladimir Sergeevich, Shlegel N. E. Nikita Evgenjevich, Strizhak P. A. Pavel Alexandrovich
Riassunto:	Title screen With their unique properties and structure, gas hydrates are a highly promising energy resource. In this research, we have experimentally studied the methane hydrate dissociation behavior when exposed to various sources of fire hazard. The experiments involved the ignition schemes most commonly identified as causes of fires: an open flame, a massive heated surface, a short circuit, and a local source of fire hazard. We have for the first time explored the impact of the following combination of the key factors on the ignition behavior: gas hydrate dissociation rate, heat flux, coverage of the free surface of the sample, gas diffusion rate, CO2 hydrate dissociation time during the combined methane hydrate and CO2 hydrate dissociation, as well as the background of the thermal field evolution in the gas hydrate. The experimental findings have become a foundation for a model predicting the critical conditions of hydrate ignition Текстовый файл AM_Agreement
Lingua:	inglese
Pubblicazione:	2023
Soggetti:	электронный ресурс труды учёных ТПУ Methane gas hydrate DissociationIgnition Ignition Gas emission Sources of fire hazard Causes of fire outbreaks
Accesso online:	https://doi.org/10.1016/j.powtec.2023.118776
Natura:	Elettronico Capitolo di libro
KOHA link:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=680237

Documenti analoghi

Dissociation of methane and carbon dioxide hydrates: Synergistic effects; Fuel; Vol. 359
Pubblicazione: (2024)

Dissociation and combustion of mixed methane-ethane hydrate; Fuel; Vol. 325
Pubblicazione: (2022)

Co-combustion of methane hydrate granules and liquid biofuel; Renewable Energy; Vol. 221
Pubblicazione: (2024)

The effect of powder aggregates, carbon nanotubes and surfactants on the kinetics of synthesis and dissociation of gas hydrates; Energy; Vol. 325
Pubblicazione: (2025)

Studying the influence of key parameters on the methane hydrate dissociation in order to improve the storage efficiency; Journal of Energy Storage; Vol. 44, Pt. A
Pubblicazione: (2021)

Prospects of Using Gas Hydrates in Power Plants; Energies; Vol. 15, iss. 12
Pubblicazione: (2022)

Using hydrate foam to extinguish petroleum product tank fires; Journal of Loss Prevention in the Process Industries; Vol. 98
Pubblicazione: (2025)

Key Areas of Gas Hydrates Study: Review; Energies; Vol. 15, iss. 5
di: Gaydukova O. S. Olga Sergeevna
Pubblicazione: (2022)

Effect of Surfactants on the Synthesis and Dissociation of Gas Hydrates; Fire; Vol. 7, iss. 7
Pubblicazione: (2024)

Heat transfer processes at the gas hydrate plug dissociation; International Journal of Heat and Mass Transfer; Vol. 256, pt. 1
Pubblicazione: (2026)

Fast detection of compartment fires under different heating conditions of materials; Process Safety and Environmental Protection; Vol. 168
Pubblicazione: (2022)

Mathematical modeling the ignition of several gas hydrate particles; Fuel; Vol. 330
di: Antonov D. V. Dmitry Vladimirovich
Pubblicazione: (2022)

Combustion of a Powder Layer of Methane Hydrate: The Influence of Layer Height and Air Velocity Above the Layer; Flow, Turbulence and Combustion; Vol. 109
Pubblicazione: (2022)

Role of Warming in Destabilization of Intrapermafrost Gas Hydrates in the Arctic Shelf: Experimental Modeling; Geosciences; Vol. 9, iss. 10
Pubblicazione: (2019)

Role of Salt Migration in Destabilization of Intra Permafrost Hydrates in the Arctic Shelf: Experimental Modeling; Geosciences; Vol. 9, iss. 4
Pubblicazione: (2019)

The influence of key parameters on combustion of double gas hydrate; Journal of Natural Gas Science and Engineering; Vol. 80
Pubblicazione: (2020)

Modeling of a Double Gas Hydrate Particle Ignition; Applied Sciences; Vol. 12, iss. 12
Pubblicazione: (2022)

Investigating regularities of gas hydrate ignition on a heated surface: Experiments and modelling; Combustion and Flame; Vol. 228
di: Gaydukova O. S. Olga Sergeevna
Pubblicazione: (2021)

Gas Hydrates: Applications and Advantages; Energies; Vol. 16, iss. 6
Pubblicazione: (2023)

Combustion of Liquid Fuels in the Presence of CO2 Hydrate Powder; Fire; Vol. 6, iss. 8
Pubblicazione: (2023)

Dissociation characteristics and anthropogenic emissions from the combustion of double gas hydrates; Environmental Research; Vol. 214, Pt. 3
Pubblicazione: (2022)

Various methods of flame extinguishing by CO2 hydrate; Fire Safety Journal; Vol. 158
di: Misyura S. Ya. Sergey Yakovlevich
Pubblicazione: (2025)

An Experimental Study of Combustion of a Methane Hydrate Layer Using Thermal Imaging and Particle Tracking Velocimetry Methods; Energies; Vol. 11, iss. 12
Pubblicazione: (2018)

Compartment Fire Behavior at the Stages of Detection, Containment and Suppression Using Water Mist; Fire; Vol. 5, iss. 5
Pubblicazione: (2022)

Using methane hydrate to intensify the combustion of composite slurry fuels; Fuel; Vol. 372
Pubblicazione: (2024)

Infrared Thermography of The Process of Surface Forest Fire Spread and Transition to Crown Fire; Russian Journal of Nondestructive Testing; Vol. 61, iss. 10
Pubblicazione: (2025)

Обеспечение пожарной безопасности в многоквартирных жилых домах; Информационные технологии (IT) в контроле, управлении качеством и безопасности
di: Тертишникова В. С. Валентина Сергеевна
Pubblicazione: (2019)

Зажигание жидкого топлива сфокусированным потоком светового излучения; Пожаровзрывобезопасность; Т. 19, № 3
di: Высокоморная О. В. Ольга Валерьевна
Pubblicazione: (2010)

Gas Hydrate Combustion in Five Method of Combustion Organization; Entropy; Vol. 22, iss. 7
Pubblicazione: (2020)

Dissociation of methane from a layer of methane-hydrate particles: A new simple model; International Journal of Heat and Mass Transfer; Vol. 213
Pubblicazione: (2023)

Reduction of response time of fire detection and containment systems in compartments; Fire Safety Journal; Vol. 144
Pubblicazione: (2024)

Comparing the ignition parameters of promising coal fuels; Process Safety and Environmental Protection; Vol. 139
Pubblicazione: (2020)

Pool Fire Suppression Using CO2 Hydrate; Energies; Vol. 15, iss. 24
Pubblicazione: (2022)

Mathematical modeling of the initiation and spread of forest firesand their impact on buildings and structures; Вестник Карагандинского университета. Серия Физика; № 3 (99)
di: Perminov V. A. Valery Afanasievich
Pubblicazione: (2020)

Methane hydrate regasification to intensify the combustion of low-rank coal fuels; Fuel; Vol. 381, pt. 2
Pubblicazione: (2025)

Исследование выбросов опасных веществ, производимых с поверхности шахт горнодобывающих предприятий Кузбасса при эндогенных пожарах; Инновационные технологии в машиностроении
di: Луговцова Н. Ю. Наталья Юрьевна
Pubblicazione: (2023)

Fire suppression using a self-activating extinguisher based on carbon dioxide hydrate; Gas Science and Engineering; Vol. 128
Pubblicazione: (2024)

Using methane hydrate to intensify the combustion of low-rank coal fuels; Energy; Vol. 304
Pubblicazione: (2024)

Numerical Modeling of the Process of Thermal Impact of Wildfires on Buildings Located near Forests; Materials Science Forum; Vol. 970 : Modern Problems in Materials Processing, Manufacturing, Testing and Quality Assurance II
di: Perminov V. A. Valery Afanasievich
Pubblicazione: (2019)

Ошибки проектирования систем противопожарной защиты; Прогрессивные технологии и экономика в машиностроении
di: Куулар А. А.
Pubblicazione: (2022)