Jaak Heinloo scite author profile

Jaak Heinloo

5Publications

93Citation Statements Received

8Citation Statements Given

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Affiliations

Tallinn University of Technology, Estonian Academy of Sciences, Institute of Thermophysics

Publications

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Formulation of turbulence mechanics

Heinloo

2004

Phys. Rev. E

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This paper presents a setup of turbulence mechanics for averaged description of turbulence, founded on laws of momentum, moment of momentum, and energy, complemented by common rheological principles for formulating constitutive relations between generalized forces and generalized velocities of the description. A kinematical-geometrical principle is adopted to determine internal rotating degrees of freedom of turbulent media generated by the eddy structure of turbulent flow fields. The connection between the formulated mechanics and some models (as K-epsilon model), widely used in practical engineering flow calculations, is established. As an example, the formulated mechanics is applied to describe some classical flow patterns.

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Setup of Turbulence Mechanics Accounting for a Preffered Orientation of Eddy Rotation

Heinloo¹

2008

Old and New Concepts of Physics

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The description of externally influenced turbulence accounting for a a preferred orientation of eddy rotation

Heinloo

2008

Eur. Phys. J. B

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Evolution model of the vertical structure of the turbulent active layer of the sea

Võsumaa¹,

Heinloo²

1996

J. Geophys. Res.

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An one‐dimensional differential model of the vertical structure of the turbulent active layer of the sea based on the theory of the rotationally anisotropic turbulence is proposed. The present article consists of two parts. The first part gives the definition of the class of rotationally anisotropic turbulence (RAT) and presents the basics of the theory of RAT. In the second part the theory is used to describe the evolution of the vertical structure of the turbulent active layer of the ocean within the framework of the traditional model assumption about the horizontal homogeneity of all the fields under consideration. A set of submodels (including the analogue to the classical mixing length model) is derived and discussed. The model is used under different initial and boundary conditions. Depending on the actual conditions the model describes various effects: the appearance of the upper mixed layer with a steep thermocline below it, the switching between the convective and diffusive mixing regimes, the staircase‐like structure of the thermocline (caused by unsteady shear flow or by double‐diffusion instabilities), and the modulation of the velocity field by the period of the oscillation of the heat flux. The set of the model coefficients is determined on the basis of sea surface temperature data from the ocean weather station (OWS) Papa. The results of the following computations of temperature distribution show a reasonable similarity between the model results and the corresponding data from the OWS Papa and the Long‐Term Upper Ocean Study (LOTUS).

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A setup of systemic description of fluid motion

Heinloo¹

2009

Proc. Estonian Acad. Sci.

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Jaak Heinloo

Formulation of turbulence mechanics

Setup of Turbulence Mechanics Accounting for a Preffered Orientation of Eddy Rotation

The description of externally influenced turbulence accounting for a a preferred orientation of eddy rotation

Evolution model of the vertical structure of the turbulent active layer of the sea

A setup of systemic description of fluid motion

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