Reducing solid particle erosion of an axial fan with sweep and lean using multidisciplinary design optimization

Wen, Suping; Wang, Jian; Li, Ting; Xi, Guang

doi:10.1177/0954406214521409

Cited by 5 publications

(3 citation statements)

References 36 publications

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“…Approximate models can be used to simplify complex engineering optimization design problems. 25,26 The Co-Kriging model, 27 for example, is a nice choice to predict performance response distributions at unknown points.…”

Section: Multi-objective Optimization Designmentioning

confidence: 99%

Blades optimal design of squirrel cage fan based on Hicks-Henne function

Zhou

Gao

et al. 2020

Proceedings of the Institution of Mechanical Engineers, Part C:

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The traditional single-arc blade used in the squirrel cage fan is simple in structure and cannot meet relevant parameterized design requirements. In order to improve the aerodynamic performance of single-arc blades of squirrel cage fans an improved Hicks-Henne function was used in this study to parameterize the blade expression in a Q35 single-suction squirrel cage fan. The AE criterion was used to optimize the Latin hypercube design, a Co-Kriging agent model was established with High and low confidence samples, and the NSGA-II algorithm was combined with the flow rate and total pressure efficiency as a multi-objective optimization goal. A set of optimal blade parameters was selected under the premise that the flow meets the design requirements. The optimized fan's total pressure and total pressure efficiency were improved at each working point. At the design working point, the fan's total pressure increased by about 23Pa, the effective air volume increased by 1.18m³/min, and the total pressure efficiency improved by 3.31%.

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Section: Multi-objective Optimization Designmentioning

confidence: 99%

Blades optimal design of squirrel cage fan based on Hicks-Henne function

Zhou

Gao

et al. 2020

Proceedings of the Institution of Mechanical Engineers, Part C:

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“…Jansen [24] As the number of vanes increases, the distribution of the flow near vanes will be unsteady, which results in a kind of obstruction for the incoming flow to the diffuser [29]. Besides, the diffuser with few vanes contributes to the wide surge margin [30].…”

Section: Surge Marginmentioning

confidence: 99%

Preliminary design of centrifugal compressor using multidisciplinary optimization method

Yue

Zhang

et al. 2019

Mechanics & Industry

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Centrifugal compressor is widely used in turbochargers in which the aerodynamic performance and strength are invariable among the important design objectives. As high pressure ratio centrifugal compressor develops, the interaction between multiple disciplines should be involved in the preliminary design process. A strength prediction method was presented and the prediction error was less than 3% compared with the 3D finite element calculation. The preliminary design method was established with consideration of multidisciplinary couplings. Then, a centrifugal compressor with the lowest pressure ratio of 4.4 was designed based on the method. The optimal results showed that the aerodynamic efficiency increases by 2.245% compared with the initial design results. Finally, the 3D validation was carried out including aerodynamic analysis and strength calculation, which showed good agreement with the optimal results of the preliminary design.

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“…Lean is an effective and applicable geometrical feature to redistribute the loading of the blade, [33][34][35] and thus can be introduced to achieve the control of separation flow and the reduced losses. In our previous study, 36 lean in combination with sweep is used to redesign an axial fan with the improved aerodynamic, structural, and erosion performance, automatically directed by the proposed multidisciplinary design optimization method. Abdelwahab 25,26,37 designed a radial aerofoil diffuser with high efficiency and wide operating range by the use of lean.…”

Section: Mathematical Model Of the Diffuser Geometrymentioning

confidence: 99%

Intelligence design method for three-dimensional vaned diffusers in a centrifugal compressor

Wang

Wen

Wang

et al. 2018

Proceedings of the Institution of Mechanical Engineers, Part A:

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This paper presents a multi-objective optimization-based intelligence design method for the design of the three-dimensional vaned diffuser for a given centrifugal compressor. This design method consists of three-dimensional vaned diffuser design model and its solving strategy. The three-dimensional vaned diffuser design model consists of the diffuser geometry mathematical model, performance evaluation model, objective equation, and design space. The diffuser geometry is described by the mathematical model of the meridional configurations and vane camber, trailing edge lean, and thickness. The generic design space is determined through literature statistical investigation. An NSGA-II multi-objective optimization algorithm, utilized to solve the three-dimensional vaned diffuser design model, directs the diffuser geometry variables to achieve the maximum stage isentropic efficiency and static pressure ratio at the design point within the design space automatically and intelligently. The presented three-dimensional vaned diffuser design method is demonstrated using a case test for a centrifugal impeller. The convergence of evolutionary solving for this three-dimensional vaned diffuser model is analyzed in detail, which provides the convergence reference for engineering applications. Three representative three-dimensional vaned diffusers on Pareto front are utilized to check the diversity of geometry shape and overall range performance characteristics. The results show that the three-dimensional vaned diffuser design method established here has excellent potential in automated design and maximizing stage performance. The method reported here could provide a valuable reference for the intelligent design of radial turbomachinery diffusers.

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Reducing solid particle erosion of an axial fan with sweep and lean using multidisciplinary design optimization

Cited by 5 publications

References 36 publications

Blades optimal design of squirrel cage fan based on Hicks-Henne function

Blades optimal design of squirrel cage fan based on Hicks-Henne function

Preliminary design of centrifugal compressor using multidisciplinary optimization method

Intelligence design method for three-dimensional vaned diffusers in a centrifugal compressor

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