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January 1996
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4 Reads
The problem of qualitative estimation of oscillating motion formation in the greenhouse closed volume was considered. It was established that, as compared to a horizontal surface, it takes an inclined surface more time to reach the steady-state regime. This time shift causes the transfer coefficients to fluctuate at the initial time instant.
May 1993
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3 Reads
The investigation results of a developed mathematical heliogreenhouse model consisting of the three subsystems are given: moist air-soil-plants. Peculiarities of the subsystem integration conditions are taken into consideration. The turbulent pulsation generation source are shown to be the inclined cold walls where considerable irreversible heat losses take place. The influence of the walls on plants and temperature-humidity regime of a greenhouse is estimated.
January 1993
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12 Reads
September 1992
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3 Reads
The calculation of total (diffused and direct) solar radiation, absorbed by the soil in a solar greenhouse, is given.
January 1992
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5 Reads
Proposed is the unitary mathematic model for the process of a solar greenhouse functioning in the operational mode.
November 1991
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4 Reads
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1 Citation
Processes of hydrodynamics and heat and mass exchange within hothouse thermodynamic system are studied from the view of system analysis by means of mathematical simulation. Principle of complex system division into simpler structure units is used. Flows within the system due to its large geometric sizes are of turbulent character. Plants are medium turbulizers, thus, simulation is carried out with regard to their presence. (K,E)-model of Nagano-Hisid turbulence modified for natural convection within large closed volume with regard to turbulizers, is used. Reynolds stresses, turbulent, thermal and diffusion flows are expressed via turbulent viscosity coefficient and turbulent numbers of Prandtl and Schmidt corresponding to Bussinesk hypothesis. Account of molecular viscosity and Prandtl and Schmidt laminar numbers provides for model universality at investigations into flows under turbulent, laminar and transition conditions.
January 1987
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4 Reads
On the basis of numerical solution of a system of motion, energy, and diffusion equations,the formation of free convection in a trianglar space is analyzed.
January 1987
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7 Reads
On the basis of numerical solution of a system of movement, energy, and diffusion equations, the formation of free convection in a trapezoidal chamber is analyzed.
