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飞机在穿越含有过冷水滴的云层时,其迎风部件如机翼、尾翼、发动机唇口等都会发生结冰现象,飞机结冰对飞行安全造成很大的危害,因此飞机的防冰研究历来受到世界各国的重视。飞机防冰...
飞机在穿越含有过冷水滴的云层时,其迎风部件如机翼、尾翼、发动机唇口等都会发生结冰现象,飞机结冰对飞行安全造成很大的危害,因此飞机的防冰研究历来受到世界各国的重视。飞机防冰是一个复杂的传热传质现象,涉及到流体力学、传热学以及空气动力学等多个领域,本文采用欧拉-欧拉法对飞机机翼的防冰热载荷进行了数值模拟。
本文的研究工作主要有以下几个方面:
1)简述了飞机发动机整流支板结冰现象及其主要研究方法,着重介绍了防冰数值模拟研究的发展状况;[U1]
2)在对发生结冰现象的飞行和气象条件分析的基础上,确定了采用求解N-S 方程来计算空气流场,选用了适用于飞机结冰研究的湍流模型。
3)对建立水滴运动方程的欧拉型方法进行了研究,在合理的假设和简化的基础上,建立了适用于飞机防冰研究的过冷水滴控制方程。根据发动机整流支板结冰气象条件的特点,研究了方程的求解方法。
4)对热载荷模型进行了研究,分析讨论了各个热流的求法。如对流散热,水蒸发散热,加热收集水等。[U2]
5)利用本文提出的方法,进行了发动机整流支板结冰[U3] 的数值模拟,通过FLUENT加载用户自定义函数(UDF),计算得到防冰表面的各项热流密度,并对其进行分析。
8)对本文的工作进行了总结
关键词:数值模拟,流动,传热传质,飞机防冰 展开
本文的研究工作主要有以下几个方面:
1)简述了飞机发动机整流支板结冰现象及其主要研究方法,着重介绍了防冰数值模拟研究的发展状况;[U1]
2)在对发生结冰现象的飞行和气象条件分析的基础上,确定了采用求解N-S 方程来计算空气流场,选用了适用于飞机结冰研究的湍流模型。
3)对建立水滴运动方程的欧拉型方法进行了研究,在合理的假设和简化的基础上,建立了适用于飞机防冰研究的过冷水滴控制方程。根据发动机整流支板结冰气象条件的特点,研究了方程的求解方法。
4)对热载荷模型进行了研究,分析讨论了各个热流的求法。如对流散热,水蒸发散热,加热收集水等。[U2]
5)利用本文提出的方法,进行了发动机整流支板结冰[U3] 的数值模拟,通过FLUENT加载用户自定义函数(UDF),计算得到防冰表面的各项热流密度,并对其进行分析。
8)对本文的工作进行了总结
关键词:数值模拟,流动,传热传质,飞机防冰 展开
2个回答
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The plane containing the supercooled water droplet clouds in the crossing, the wind components such as wings, empennage, engine lip have iced aircraft icing phenomenon, caused great harm to the safety of flight, so the attention of world each country has always been the study of anti-icing aircraft. Aircraft ice protection is a complex heat transfer phenomenon, involving a number of areas of fluid mechanics, heat transfer and air dynamics, this paper adopts the Eulerian-Eulerian method for aircraft wing anti-icing heat load is studied by numerical simulation.
The research work of this paper include the following aspects:
1) the aircraft engine rectifying plate icing phenomenon and its main research method, introduced the development status of ice numerical simulation; [U1]
2) based on analysis of the freezing phenomenon of flight and weather conditions, the solution of the N-S equation to calculate the air flow, the turbulence model is applied to aircraft icing research.
3) of Eulerian method to establish the droplet motion equations are studied, based on a reasonable hypothesis and simplification, supercooled water droplet control equation was established and applied to aircraft icing research. According to the characteristics of the engine rectifier supporting plate icing conditions, study the method of solving equations.
4) on the thermal load model are studied, analyzed and discussed for each heat flux method. Such as convection cooling, water cooling, heating water collection etc.. [U2]
5) using the method proposed in this paper, the numerical simulation of engine rectifier supporting plate ice [U3], FLUENT loaded by user defined function (UDF), calculated the flux density of anti-icing surface, and its analysis.
8) summarized the work of this paper
Keywords: numerical simulation, flow, heat transfer and mass transfer, aircraft ice protection
The research work of this paper include the following aspects:
1) the aircraft engine rectifying plate icing phenomenon and its main research method, introduced the development status of ice numerical simulation; [U1]
2) based on analysis of the freezing phenomenon of flight and weather conditions, the solution of the N-S equation to calculate the air flow, the turbulence model is applied to aircraft icing research.
3) of Eulerian method to establish the droplet motion equations are studied, based on a reasonable hypothesis and simplification, supercooled water droplet control equation was established and applied to aircraft icing research. According to the characteristics of the engine rectifier supporting plate icing conditions, study the method of solving equations.
4) on the thermal load model are studied, analyzed and discussed for each heat flux method. Such as convection cooling, water cooling, heating water collection etc.. [U2]
5) using the method proposed in this paper, the numerical simulation of engine rectifier supporting plate ice [U3], FLUENT loaded by user defined function (UDF), calculated the flux density of anti-icing surface, and its analysis.
8) summarized the work of this paper
Keywords: numerical simulation, flow, heat transfer and mass transfer, aircraft ice protection
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Aircraft across with supercooled water droplets in the clouds, the wind components such as wings, tail and engine lip, freezes phenomenon happens to prevent their aircraft icing up cause great harm to the flight safety, therefore aircraft deicing research has brought to the attention of the countries all over the world. Aircraft deicing is a complicated heat and mass transfer phenomena, involved in fluid mechanics, heat transfer and aerodynamics, and other fields, in this paper, using the euler - euler method for aircraft wing anti-icing thermal load are simulated.
This article research mainly has the following several aspects:
1) for aircraft engine rectifier harden ice phenomenon and the main research methods, introduces the anti-icing numerical simulation research of development condition; [U1]
2) freezes occur in flight and on the basis of analysis of the meteorological conditions, identified by solving navier-stokes equations to calculate the air flow field, choose the turbulence model is applicable to aircraft icing research.
3) to establish water droplets motion equation of euler method are studied, based on the reasonable hypothesis and simplification, establish the supercooled water droplets of axial-flow compressor.in order application form ice research control equation. According to the characteristics of the engine with rectifier harden ice meteorological conditions, research the solution of the equation method.
4) studied the thermal load model, the analysis of the heat flow is discussed in this. Such as convection and water evaporation cooling and heating water collection, etc. [U2]
5) using the method proposed in this paper, the engine of rectifier harden ice [U3] numerical simulation of the load by FLUENT user-defined function (UDF), to calculate the heat flux density on the surface of the ice, and carries on the analysis.
8) For the work of this paper are summarized。
Key words: numerical simulation ,flow, heat and mass transfer, aircraft deicing
This article research mainly has the following several aspects:
1) for aircraft engine rectifier harden ice phenomenon and the main research methods, introduces the anti-icing numerical simulation research of development condition; [U1]
2) freezes occur in flight and on the basis of analysis of the meteorological conditions, identified by solving navier-stokes equations to calculate the air flow field, choose the turbulence model is applicable to aircraft icing research.
3) to establish water droplets motion equation of euler method are studied, based on the reasonable hypothesis and simplification, establish the supercooled water droplets of axial-flow compressor.in order application form ice research control equation. According to the characteristics of the engine with rectifier harden ice meteorological conditions, research the solution of the equation method.
4) studied the thermal load model, the analysis of the heat flow is discussed in this. Such as convection and water evaporation cooling and heating water collection, etc. [U2]
5) using the method proposed in this paper, the engine of rectifier harden ice [U3] numerical simulation of the load by FLUENT user-defined function (UDF), to calculate the heat flux density on the surface of the ice, and carries on the analysis.
8) For the work of this paper are summarized。
Key words: numerical simulation ,flow, heat and mass transfer, aircraft deicing
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