Bing Bo, Jian Chen, Zheng Yan, Zehua Yang, Shouxiang Lu
{"title":"高压对乙醇方形池火的大量燃烧率和火焰高度的影响","authors":"Bing Bo, Jian Chen, Zheng Yan, Zehua Yang, Shouxiang Lu","doi":"10.1007/s10973-024-13502-z","DOIUrl":null,"url":null,"abstract":"<p>The study of fire under high pressure is of great significance for the designing safety protection systems of submarines and underground space stations under high-pressure environment. To investigate the influence of high-pressure on mass burning rate and flame characteristics of square pool fires, three sizes square pools with the length of 2 cm, 4 cm, and 6 cm were carried under high pressure ranged from 1 to 3 atm, and mass burning rate and morphological characteristics of the flame were analyzed. Results showed that the mass burning rates gradually increased as pressure increased, which could be explained by different conduction thermal feedback affected by pressure. The mass burning rates of 4 cm- and 6 cm-length square pool fires were mainly dominated by conduction and convection heat feedback and were proportional to <span>\\({P}^{\\text{n}}\\)</span>, and the exponents were 0.25 and 0.32. But the change of 2 cm-length square pool fire was barely affected by the pressure. As the pressure increasing, the flame oscillation frequency was increased, and the shapes were transformed into relatively unstable because of the enhancement of buoyancy. The color of flame was found to be bright yellow totally owing to the incandescence of soot particles. Moreover, the flame height of 2 cm-length square pool fire increased with pressure increasing and could be expressed as <span>\\({h}_{\\text{f}}/\\dot{m}\\propto {P}^{0.23}\\)</span>, while the flame height of other pool fires decreased, which could be demonstrated as <span>\\({h}_{\\text{f}}/{\\dot{m}}^{2/5}\\propto {P}^{-0.27}\\)</span> and <span>\\({h}_{\\text{f}}/{\\dot{m}}^{2/5}\\propto {P}^{-0.35}\\)</span>, respectively. Finally, Froude number and Strouhal number were used to characterize the flame pulsation frequency under high pressure. The method presented in this study can provide key scientific data and models to assess fire risk under high pressure.</p>","PeriodicalId":678,"journal":{"name":"Journal of Thermal Analysis and Calorimetry","volume":null,"pages":null},"PeriodicalIF":3.0000,"publicationDate":"2024-09-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The influence of high pressure on mass burning rates and flame height of ethanol square pool fires\",\"authors\":\"Bing Bo, Jian Chen, Zheng Yan, Zehua Yang, Shouxiang Lu\",\"doi\":\"10.1007/s10973-024-13502-z\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>The study of fire under high pressure is of great significance for the designing safety protection systems of submarines and underground space stations under high-pressure environment. To investigate the influence of high-pressure on mass burning rate and flame characteristics of square pool fires, three sizes square pools with the length of 2 cm, 4 cm, and 6 cm were carried under high pressure ranged from 1 to 3 atm, and mass burning rate and morphological characteristics of the flame were analyzed. Results showed that the mass burning rates gradually increased as pressure increased, which could be explained by different conduction thermal feedback affected by pressure. The mass burning rates of 4 cm- and 6 cm-length square pool fires were mainly dominated by conduction and convection heat feedback and were proportional to <span>\\\\({P}^{\\\\text{n}}\\\\)</span>, and the exponents were 0.25 and 0.32. But the change of 2 cm-length square pool fire was barely affected by the pressure. As the pressure increasing, the flame oscillation frequency was increased, and the shapes were transformed into relatively unstable because of the enhancement of buoyancy. The color of flame was found to be bright yellow totally owing to the incandescence of soot particles. Moreover, the flame height of 2 cm-length square pool fire increased with pressure increasing and could be expressed as <span>\\\\({h}_{\\\\text{f}}/\\\\dot{m}\\\\propto {P}^{0.23}\\\\)</span>, while the flame height of other pool fires decreased, which could be demonstrated as <span>\\\\({h}_{\\\\text{f}}/{\\\\dot{m}}^{2/5}\\\\propto {P}^{-0.27}\\\\)</span> and <span>\\\\({h}_{\\\\text{f}}/{\\\\dot{m}}^{2/5}\\\\propto {P}^{-0.35}\\\\)</span>, respectively. Finally, Froude number and Strouhal number were used to characterize the flame pulsation frequency under high pressure. 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引用次数: 0
摘要
高压下火灾的研究对高压环境下潜艇和地下空间站安全保护系统的设计具有重要意义。为了研究高压对方形水池火灾的质量燃烧率和火焰特性的影响,将长度分别为 2 cm、4 cm 和 6 cm 的三种尺寸的方形水池置于 1 至 3 atm 的高压下,分析其质量燃烧率和火焰形态特征。结果表明,随着压力的增加,质量燃烧率逐渐增加,这可能是由于压力影响了不同的传导热反馈。4 cm长和6 cm长方形池火的质量燃烧速率主要受传导和对流热反馈的影响,与\({P}^{text{n}}\)成正比,指数分别为0.25和0.32。但长度为 2 cm 的方形池火的变化几乎不受压力的影响。随着压力的增大,火焰振荡频率增加,由于浮力的增强,火焰形状转变为相对不稳定。火焰的颜色为亮黄色,这完全是由于烟尘颗粒的炽热作用。此外,2 cm 长方形池火的火焰高度随压力增加而增加,可表示为 \({h}_{\text{f}}/\dot{m}\propto {P}^{0.23}),而其他池火的火焰高度降低,分别表示为({h}_{text{f}}/{dot{m}}^{2/5}/propto {P}^{-0.27})和({h}_{text{f}}/{dot{m}}^{2/5}/propto {P}^{-0.35})。最后,弗劳德数和斯特劳哈尔数被用来表征高压下的火焰脉动频率。本研究提出的方法可以为评估高压下的火灾风险提供关键的科学数据和模型。
The influence of high pressure on mass burning rates and flame height of ethanol square pool fires
The study of fire under high pressure is of great significance for the designing safety protection systems of submarines and underground space stations under high-pressure environment. To investigate the influence of high-pressure on mass burning rate and flame characteristics of square pool fires, three sizes square pools with the length of 2 cm, 4 cm, and 6 cm were carried under high pressure ranged from 1 to 3 atm, and mass burning rate and morphological characteristics of the flame were analyzed. Results showed that the mass burning rates gradually increased as pressure increased, which could be explained by different conduction thermal feedback affected by pressure. The mass burning rates of 4 cm- and 6 cm-length square pool fires were mainly dominated by conduction and convection heat feedback and were proportional to \({P}^{\text{n}}\), and the exponents were 0.25 and 0.32. But the change of 2 cm-length square pool fire was barely affected by the pressure. As the pressure increasing, the flame oscillation frequency was increased, and the shapes were transformed into relatively unstable because of the enhancement of buoyancy. The color of flame was found to be bright yellow totally owing to the incandescence of soot particles. Moreover, the flame height of 2 cm-length square pool fire increased with pressure increasing and could be expressed as \({h}_{\text{f}}/\dot{m}\propto {P}^{0.23}\), while the flame height of other pool fires decreased, which could be demonstrated as \({h}_{\text{f}}/{\dot{m}}^{2/5}\propto {P}^{-0.27}\) and \({h}_{\text{f}}/{\dot{m}}^{2/5}\propto {P}^{-0.35}\), respectively. Finally, Froude number and Strouhal number were used to characterize the flame pulsation frequency under high pressure. The method presented in this study can provide key scientific data and models to assess fire risk under high pressure.
期刊介绍:
Journal of Thermal Analysis and Calorimetry is a fully peer reviewed journal publishing high quality papers covering all aspects of thermal analysis, calorimetry, and experimental thermodynamics. The journal publishes regular and special issues in twelve issues every year. The following types of papers are published: Original Research Papers, Short Communications, Reviews, Modern Instruments, Events and Book reviews.
The subjects covered are: thermogravimetry, derivative thermogravimetry, differential thermal analysis, thermodilatometry, differential scanning calorimetry of all types, non-scanning calorimetry of all types, thermometry, evolved gas analysis, thermomechanical analysis, emanation thermal analysis, thermal conductivity, multiple techniques, and miscellaneous thermal methods (including the combination of the thermal method with various instrumental techniques), theory and instrumentation for thermal analysis and calorimetry.