Experimental Investigation of Heat Transfer in Cavities of Steam Turbine Casings Under Generic Test Rig Conditions

Spura, David; Eschmann, Gunter; Uffrecht, Wieland; Gampe, Uwe

doi:10.1115/1.4041452

Cited by 2 publications

(1 citation statement)

References 10 publications

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“…This proves that acoustic waves can be applied to achieve an improvement in the heat transfer conditions. A test rig concept to investigate convection heat transfer in cavities was presented by Spura et al (2015) and investigation of forced convection heat transfer in scaled generic models of steam turbine casing side spaces with varied geometric dimensions under fully turbulent air flow was presented by Spura et al (2018).…”

Section: Introductionmentioning

confidence: 99%

Influence of duct parameters on the acoustic wave generation

Rulik

Wróblewski

Rusin

et al. 2019

HFF

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Purpose This paper aims to determine the influence of geometrical features of the channel on the acoustic wave generation in a ducted cavity. The analysis is focussed on the effects of the change in the entrance length upstream the cavity and the height. The study is supposed to investigate boundary layer and acoustic wave parameters, and an attempt will be made to determine the correlation between the geometrical dimension and those parameters. Design/methodology/approach Analysis is conducted with the aim of a computational fluid dynamics (CFD) tool and selected results are validated with experimental investigations. The influence of grid resolution and time discretization is analysed. Four different entrance lengths and height are investigated. Qualitative and quantitative comparison between cases is presented. Findings The investigations prove the small influence of the entrance length on acoustic wave generation, but channel height due to wave reflection and interference inside of the cavity has a significant impact on wave frequency and sound pressure level. Channel height has also impact on generation and shape of the vortex created in the cavity inlet. Originality/value The paper extends the knowledge of phenomena taking place in the ducted cavities. Results obtained from these investigations will be useful in designing new cooling techniques and in noise reduction. The CFD analysis makes it possible to determine the correlations between channel dimensions and SPL function and frequency of sound waves.

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Section: Introductionmentioning

confidence: 99%

Influence of duct parameters on the acoustic wave generation

Rulik

Wróblewski

Rusin

et al. 2019

HFF

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Determination of heat transfer coefficient in a T-shaped cavity by means of solving the inverse heat conduction problem

Frąckowiak

Spura

Gampe

et al. 2019

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Purpose T-shaped cavities occur by design in many technical applications. An example of such a stator cavity is the side space between the guide vane carriers and the outer casing of a steam turbine. Thermal conditions inside it have a significant impact on the deformation of the turbine casing. In order to improve its prediction, the purpose of this paper is to provide a methodology to gain better knowledge of the local heat transfer at the cavity boundaries based on experimental results. Design/methodology/approach To determine the heat transfer coefficient distribution inside a model cavity with the help of a scaled generic test rig, an inverse heat conduction problem is posed and a method for solving such type of problems in the form of linear combinations of Trefftz functions is presented. Findings The results of the calculations are compared with another inverse method using first-order gradient optimization technique as well as with estimated values obtained with an analytic two-dimensional thermal network model, and they show an excellent agreement. The calculation procedure is proved to be numerically stable for different degrees of complexity of the sought boundary conditions. Originality/value This paper provides a universal and robust methodology for the fast direct determination of an arbitrary distribution of heat transfer coefficients based on material temperature measurements spread over the confining wall.

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Experimental Investigation of Heat Transfer in Cavities of Steam Turbine Casings Under Generic Test Rig Conditions

Cited by 2 publications

References 10 publications

Influence of duct parameters on the acoustic wave generation

Influence of duct parameters on the acoustic wave generation

Determination of heat transfer coefficient in a T-shaped cavity by means of solving the inverse heat conduction problem

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