Contribution of Different Parameters on Film Cooling Efficiency Based on the Improved Orthogonal Experiment Method

Duan, Xinlei; Chang, Jianlong; Chen, Guangsong; Liu, Taisu; Ma, He

doi:10.3390/aerospace11010067

Cited by 2 publications

(2 citation statements)

References 42 publications

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“…Firstly, target parameters for optimizing the core ultra-stable structural framework are selected based on the index requirements, and their value ranges are determined while also clarifying the interdependent conditions among structural parameters [13]. The methods for selecting experimental points include full factorial design, orthogonal array, central composite design, Box-Behnken design, Latin hypercube design, and optimal Latin hypercube design [14]. Among these, the Box-Behnken design consists of multiple orthogonal cubes and includes a central point.…”

Section: Optimization Process Designmentioning

confidence: 99%

Optimization Design of Core Ultra-Stable Structure for Space Gravitational Wave Detection Satellite Based on Response Surface Methodology

Liu,

Xu,

Han

et al. 2024

Aerospace

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In order to meet the urgent demand for novel zero-expansion materials and ultra-stable structures in space gravitational wave detection, it is necessary to develop an ultra-stable structural spacecraft system. This paper focuses on the research of the optimization of the core ultra-stable structure design of spacecraft, proposing a cross-scale parameterized model of structural deformation response and a multi-objective optimization method. By satisfying the prerequisites of mass and fundamental frequency, this paper breaks through the limitations of current linear analysis methods, and the overall thermal deformation of nonlinear material composite structures is optimized by modifying structural parameters.

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Section: Optimization Process Designmentioning

confidence: 99%

Optimization Design of Core Ultra-Stable Structure for Space Gravitational Wave Detection Satellite Based on Response Surface Methodology

Liu,

Xu,

Han

et al. 2024

Aerospace

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“…This, in turn, increases the thermal load on serpentine nozzles and causes problems such as local hot streaks [1,2]. Film cooling technology has good cooling effects and has attracted the attention of many scholars [3,4]. Therefore, film cooling needs to be applied to serpentine nozzles to reduce their temperature and to ensure their viability and appropriate maintenance.…”

Section: Introductionmentioning

confidence: 99%

A Numerical Investigation of Film Cooling under the Effects of Different Adverse Pressure Gradients

Shi,

Hui,

Zhou

et al. 2024

Aerospace

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Film cooling needs to be applied to serpentine nozzles due to an increase in thermal load. Adverse pressure gradients (APGs) near the upper wall of such nozzles hinder the forward flow of the coolant, and they may even induce a recirculation zone that complicates the cooling of the film in serpentine nozzles under different APGs. In this study, the film cooling characteristics of a serpentine nozzle under various APGs are investigated through numerical simulations. The studied pressure gradients include strong, moderate, and weak APGs. The results show that the APG weakened the adhesion of the coolant to the surface, thereby reducing the film cooling effectiveness (FCE) and the convective heat transfer coefficient (CHTC). The stronger the APG, the greater its obstructive effect. However, the recirculation zone induced by the strong APG was composed of the coolant, and it adhered tightly to the wall, thereby significantly strengthening the FCE and CHTC. The CHTC under the moderate APG significantly increased due to the convergence of two jets ejected from different holes. For the four blowing ratios, the area-averaged FCE under the strong APG was 29.8% and 24.5% higher than that under the moderate and weak APGs, while the area-averaged ratios of the CHTC under the moderate APG were 1.6% and 16.7% higher than those under the strong and weak APGs. Therefore, more holes should be arranged on the film in the zones of moderate and weak APGs.

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Contribution of Different Parameters on Film Cooling Efficiency Based on the Improved Orthogonal Experiment Method

Cited by 2 publications

References 42 publications

Optimization Design of Core Ultra-Stable Structure for Space Gravitational Wave Detection Satellite Based on Response Surface Methodology

Optimization Design of Core Ultra-Stable Structure for Space Gravitational Wave Detection Satellite Based on Response Surface Methodology

A Numerical Investigation of Film Cooling under the Effects of Different Adverse Pressure Gradients

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