Energy equations for the temperature three-dimensional boundary layer for the flow within boundary conditions of turbo machinery | Zendy

Alexander Zuev | Zendy; А. А. Кишкин | Zendy; Д А Жуйков | Zendy; M I Tolstopyatov | Zendy; Marina Savelyeva | Zendy

Open Access

Energy equations for the temperature three-dimensional boundary layer for the flow within boundary conditions of turbo machinery

Author(s) -

Alexander Zuev,

А. А. Кишкин,

Д А Жуйков,

M I Tolstopyatov,

Marina Savelyeva

Publication year - 2019

Publication title -

iop conference series. materials science and engineering

Language(s) - English

Resource type - Journals

eISSN - 1757-899X

pISSN - 1757-8981

DOI - 10.1088/1757-899x/537/2/022008

Subject(s) - boundary layer , mechanics , heat transfer , boundary (topology) , energy (signal processing) , flow (mathematics) , boundary value problem , boundary layer thickness , blasius boundary layer , boundary layer control , materials science , mathematical analysis , mathematics , physics , statistics

The research generates an integral relation of the energy equations for the temperature three-dimensional boundary layer allowing to integrate surfaces of any shape to determine thickness of energy loss. An equation to determine thickness of energy loss is necessary to specify heat transfer law and local heat transfer coefficients within boundary conditions of turbo machinery cavities.

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