Effect of Geometry and Dimensions on the Upward Fire Spread in U-Shaped Structures

U-shaped structures are very common in the facade of buildings, which have a significant impact on fire spread. In this paper, the effect of the geometrical factor ( α ), the cross-sectional area ( A ), the height ( H ) on the upward fire spread in u-shaped structures are analyzed based on the fire...

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Veröffentlicht in:	Fire technology 2023, Vol.59 (1), p.73-93
Hauptverfasser:	Chen, Yanqiu, Wang, Xiankun, Yuan, Man, Wang, Peng, Chen, Junmin
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Sprache:	eng
Schlagworte:	Characterization and Evaluation of Materials Civil Engineering Classical Mechanics Engineering Exponential functions Fire protection Geometry Heat Insulation Physics Quadratic equations Radiation
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description	U-shaped structures are very common in the facade of buildings, which have a significant impact on fire spread. In this paper, the effect of the geometrical factor ( α ), the cross-sectional area ( A ), the height ( H ) on the upward fire spread in u-shaped structures are analyzed based on the fire spread rate ( V f ) and the pressure difference between the top and the bottom (Δ P ) through full-scale experiments and simulations. A dimensionless structure parameter α H / A is put forward to analyze the coupling effect of the structure size. It is found that V f increases in the form of logarithmic function as α increases. Δ P max increases in the form of exponential function as α increases; both V f and Δ P max decrease in the form of exponential function as A increases; V f is positively correlated with H linearly. Δ P max increases in the form of quadratic function as H increases; both V f and Δ P max increase in the form of Slogistic function as α H / A increases. When α H / A ≤ 17.2 or α H / A ≥ 38.8, α H / A has little effect on Δ P max . The V f in the non-overhead structure is very close to that in the overhead structure. This study can provide a theoretical guide for the fire protection design of u-shaped structures covered with insulation materials in practical engineering. Graphical abstract
doi_str_mv	10.1007/s10694-021-01191-1
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In this paper, the effect of the geometrical factor ( α ), the cross-sectional area ( A ), the height ( H ) on the upward fire spread in u-shaped structures are analyzed based on the fire spread rate ( V f ) and the pressure difference between the top and the bottom (Δ P ) through full-scale experiments and simulations. A dimensionless structure parameter α H / A is put forward to analyze the coupling effect of the structure size. It is found that V f increases in the form of logarithmic function as α increases. Δ P max increases in the form of exponential function as α increases; both V f and Δ P max decrease in the form of exponential function as A increases; V f is positively correlated with H linearly. Δ P max increases in the form of quadratic function as H increases; both V f and Δ P max increase in the form of Slogistic function as α H / A increases. When α H / A ≤ 17.2 or α H / A ≥ 38.8, α H / A has little effect on Δ P max . The V f in the non-overhead structure is very close to that in the overhead structure. This study can provide a theoretical guide for the fire protection design of u-shaped structures covered with insulation materials in practical engineering. 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The V f in the non-overhead structure is very close to that in the overhead structure. This study can provide a theoretical guide for the fire protection design of u-shaped structures covered with insulation materials in practical engineering. 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In this paper, the effect of the geometrical factor ( α ), the cross-sectional area ( A ), the height ( H ) on the upward fire spread in u-shaped structures are analyzed based on the fire spread rate ( V f ) and the pressure difference between the top and the bottom (Δ P ) through full-scale experiments and simulations. A dimensionless structure parameter α H / A is put forward to analyze the coupling effect of the structure size. It is found that V f increases in the form of logarithmic function as α increases. Δ P max increases in the form of exponential function as α increases; both V f and Δ P max decrease in the form of exponential function as A increases; V f is positively correlated with H linearly. Δ P max increases in the form of quadratic function as H increases; both V f and Δ P max increase in the form of Slogistic function as α H / A increases. When α H / A ≤ 17.2 or α H / A ≥ 38.8, α H / A has little effect on Δ P max . The V f in the non-overhead structure is very close to that in the overhead structure. This study can provide a theoretical guide for the fire protection design of u-shaped structures covered with insulation materials in practical engineering. Graphical abstract</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s10694-021-01191-1</doi><tpages>21</tpages><orcidid>https://orcid.org/0000-0002-2333-2724</orcidid></addata></record>
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subjects	Characterization and Evaluation of Materials Civil Engineering Classical Mechanics Engineering Exponential functions Fire protection Geometry Heat Insulation Physics Quadratic equations Radiation
title	Effect of Geometry and Dimensions on the Upward Fire Spread in U-Shaped Structures
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