可燃液体燃烧时的灭火模型

Y. Abramov, V. Kolomiiets, V. Sobyna
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引用次数: 0

摘要

用具有第二类边界条件的热传导微分方程描述了喷水灭火B类火灾的过程。这个微分方程的无量纲形式的解允许过渡到表示淬火过程数学模型的操作形式-传递函数。喷水灭火时这种传递函数的特点是不合理的,给使用带来了困难。摆脱这种情况的一种方法是将复变量的无理数函数转换成这种变量的小有理函数的等价表示。在Remez算法的极大极小逼近的帮助下,实现了这种过渡。利用Hurwitz稳定性判据确定了火灾传递函数特征多项式的最大阶数。结果表明,对于B类火灾的传递函数,用待定系数法求得的Hurwitz多项式阶数不超过4次,近似误差不超过3.6%,以非周期环节传递函数的叠加形式构造了喷水灭火时火灾的传递函数。得到了这些传递函数参数的数值。对于用Heaviside函数描述喷淋供水强度的情况,构造了描述燃烧液体表面温度的表达式。值得注意的是,这些表达式对应于描述B类火灾在时域上的动态特性的表达式。结果表明,当一般传递函数表示两个非周期环节传递函数的叠加时,使用这种传递函数时的相对误差最大值不超过4.0%。值得注意的是,当使用pad近似时,八个非周期连杆传递函数形式的传递函数对应于这个散度误差值。关键词:可燃液体,灭火,喷水,传递功能。
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MODELS OF FIRE EXTINGUISHING WHEN FLAMMABLE LIQUID COMBUSTION
The process of extinguishing a class B fire with sprayed water is described by the differential equation of heat conduction with boundary conditions of the second kind. The solution of this differential equation in a dimensionless form allows to make a transition to the operative form of representation of the mathematical model of the quenching process - to the transfer function. The peculiarity of such a fire transfer function when extinguishing it with sprayed water is its irrationality, which causes difficulties in its use. One of the ways out of this situation is to switch to an equivalent representation of an irrational function of a complex variable in the form of a small-rational function of such a variable. Such a transition is carried out with the help of the minimax approximation using the Remez algorithm. Determination of the maximum order of the characteristic polynomial of the fire transfer function is carried out using the Hurwitz stability criterion. It is shown that for the transfer function of class B fire, the order of the Hurwitz polynomials does not exceed four, the approximation error does not exceed 3.6% using the method of undetermined coefficients, the transfer functions of the fire when they are extinguished with sprayed water are constructed in the form of a superposition of the transfer functions of aperiodic links. Numerical values of the parameters of such transfer functions were obtained. For the case when the intensity of the sprayed water supply is described by the Heaviside function, expressions describing the temperature of the surface of the burning liquid were constructed. It is noted that these expressions correspond to the expressions that describe the dynamic properties of class B fire in the time domain. It is shown that the maximum value of the relative error when using such transfer functions does not exceed 4.0%, if the general transfer function represents the superposition of the transfer functions of two aperiodic links. It is noted that when using the Padé approximation, the transfer function in the form of the transfer functions of eight aperiodic links corresponds to this value of the divergence error. Keywords: flammable liquid, fire extinguishing, sprayed water, transfer function.
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