共查询到20条相似文献,搜索用时 562 毫秒
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在纳秒时域,研究了激光脉冲宽度变化对克尔介质中瞬态热光非 线性效应的影响.通过不同脉冲宽度τp下得到的二硫化碳 苯胺黑溶液的Z_scan实验结果,对瞬态热光非线性效应和光克尔效应的共存过程进行了分析 .随着脉冲宽度的增加,观察到了热光非线性效应从瞬态到稳态变化过程和Z_scan峰谷特性 的转变.同时,从声波的传播方程和光波的非线性传播方程出发,用数值计算方法模拟了这 一非线性过程,结果表明数值模拟结果和实验结果是相符的.
关键词:
瞬态热光非线性效应
脉冲宽度
Z_scan
克尔效应 相似文献
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本文利用红外热像仪测温系统,系统地对三种典型的航天用功率器件进行了测试和分析。研究结果对功率器件可靠性分析具有重要的作用。同时对功率器件进行了数值模拟,在定性方面可为器件的热设计提供改进方向和合理方案。 相似文献
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提出了一种低频热驱动气–液耦合热声制冷系统,通过数值模拟优化了该系统的结构参数并对其热力性能进行了数值模拟分析。首先,分别对系统关键参数的沿程分布和各部件的?损失进行了分析;然后,探究了不同压力下液体质量对系统热力学参数的影响;最后,与传统热声制冷系统进行了对比。结果表明,气液耦合热声制冷系统可以有效地提升系统的压比、制冷量、COP和相对卡诺效率,降低系统的起振温度和频率。在加热温度300℃,制冷温度15℃,环境温度50℃,平均压力10 MPa时,气液耦合热声制冷系统制冷量为31.12 k W,是传统热声系统理论值的4倍,COP和相对卡诺效率相对于传统热声制冷系统的理论值分别提升了13%和25.9%。 相似文献
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Research on flow and heat transfer of hybrid nanofluids has gained great significance due to their efficient heat transfer capabilities.In fact,hybrid nanofluids are a novel type of fluid designed to enhance heat transfer rate and have a wide range of engineering and industrial applications.Motivated by this evolution,a theoretical analysis is performed to explore the flow and heat transport characteristics of Cu/Al2O3 hybrid nanofluids driven by a stretching/shrinking geometry.Further,this work focuses on the physical impacts of thermal stratification as well as thermal radiation during hybrid nanofluid flow in the presence of a velocity slip mechanism.The mathematical modelling incorporates the basic conservation laws and Boussinesq approximations.This formulation gives a system of governing partial differential equations which are later reduced into ordinary differential equations via dimensionless variables.An efficient numerical solver,known as bvp4c in MATLAB,is utilized to acquire multiple(upper and lower)numerical solutions in the case of shrinking flow.The computed results are presented in the form of flow and temperature fields.The most significant findings acquired from the current study suggest that multiple solutions exist only in the case of a shrinking surface until a critical/turning point.Moreover,solutions are unavailable beyond this turning point,indicating flow separation.It is found that the fluid temperature has been impressively enhanced by a higher nanoparticle volume fraction for both solutions.On the other hand,the outcomes disclose that the wall shear stress is reduced with higher magnetic field in the case of the second solution.The simulation outcomes are in excellent agreement with earlier research,with a relative error of less than 1%. 相似文献
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The work is devoted to the mathematical modelling and numerical solution of the problems of conjugate micro-convection, which arises under the laser radiation action in the metal melt with surface-active refractory disperse components added for the modification, hardening, and doping of the treated surface. A multi-vortex structure of the melt flow has been obtained, the number of vortices in which depends on the surface tension variation, on the temperature and power of laser radiation. Special attention is paid to the numerical modelling of the behavior in the melt of the substrate of disperse admixture consisting of the tungsten carbide particles. The role of microconvection in the distribution of powder particles in the surface layer of the substrate after its cooling is shown. 相似文献
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针对飞行器高超声速飞行时严重的气动加热环境, 提出内嵌定向高导热层的疏导式热防护系统. 运用数值方法分析了特定条件下内嵌定向高导热层的疏导式系统的防热效果, 外壁面最高温度下降了9.1%, 内壁面最高温度下降了31.5%, 高温区和低温区都被封闭在外层区域, 内层温度更加均匀, 实现了热流由高温区向低温区的转移, 削弱了高温区的热载荷, 强化了整体结构的热防护能力. 研究表明, 随着气动热流密度比与辐射散热面积比的增大, 疏导结构的冷却效果增强. 本文还对疏导防热系统的结构参数和材料参数对冷却效果的影响进行了分析, 为结构的设计和材料的选取提供一定的依据. 相似文献
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In this paper, we propose a lattice Boltzmann BGK model for simulation of micro flows with heat transfer based on kinetic
theory and the thermal lattice Boltzmann method (He et al., J. Comp. Phys. 146:282, 1998). The relaxation times are redefined in terms of the Knudsen number and a diffuse scattering boundary condition
(DSBC) is adopted to consider the velocity slip and temperature jump at wall boundaries. To check validity and potential of
the present model in modelling the micro flows, two two-dimensional micro flows including thermal Couette flow and thermal
developing channel flow are simulated and numerical results obtained compare well with previous studies of the direct simulation
Monte Carlo (DSMC), molecular dynamics (MD) approaches and the Maxwell theoretical analysis 相似文献
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采用了数值模拟与实验结合的方法研究了用于模拟放射性固体废物玻璃固化的非转移弧型等离子体炬的电、热特性。基于包括电弧室和开放空间在内的3D 模型得到了电弧等离子体和等离子体射流的温度场。根据计算结果,电弧室内的最高温度位于第一阳极内,达到41.77×10 K;弧电压的计算值高于实测值,二者之间的差异随着电流强度的增大而逐渐减小。采用该等离子体炬熔融模拟废物的实验发现,所确定的等离子体炬到炉底的距离能够满足废物熔融的要求,与计算的结果相符合。上述结果表明,数值模拟的结果可以作为等离子体炉工程设计的依据,并可以用作进一步分析等离子体炉炉膛内工艺过程的输入条件。 相似文献
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B. Thornber R.W. Bilger A.R. Masri E.R. Hawkes 《Journal of computational physics》2011,230(20):7687-7705
A novel numerical method has been developed to couple a recent high order accurate fully compressible upwind method with the Conditional Moment Closure combustion model. The governing equations, turbulence modelling and numerical methods are presented in full. The new numerical method is validated against direct numerical simulation (DNS) data for a lean premixed methane slot burner. Although the modelling approaches are based on non-premixed flames and hence not expected to be valid for a wide range of premixed flames, the predicted flame is just 10% longer than that in the DNS and excellent agreement of mean mass fractions, conditional mass fractions and temperature is demonstrated. This new numerical method provides a very useful framework for future application of CMC to premixed as well as non-premixed combustion. 相似文献