An experimental investigation of convective heat transfer at evaporation of kerosene and water in the closed volume

An evaporation of kerosene and water was investigated based on convective heat transfer in the experimental setup simulating a typical volume of the fuel tank of the launch vehicle. Basic criteria of similarity used in choosing the design parameters of the setup, parameters of the coolant and model...

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Bibliographic Details
Published in:Thermophysics and aeromechanics 2017-09, Vol.24 (5), p.751-760
Main Authors: Trushlyakov, V. I., Lesnyak, I. Y., Galfetti, L.
Format: Article
Language:English
Subjects:
Combustion products
Computer simulation
Convective heat transfer
Coolants
Design parameters
Evaporation
Fuel tanks
Gases
Heat transfer
Heat transfer coefficients
Kerosene
Liquids
Mass transfer
Mathematical models
Physics
Physics and Astronomy
Simulation
Thermodynamics
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Summary:An evaporation of kerosene and water was investigated based on convective heat transfer in the experimental setup simulating a typical volume of the fuel tank of the launch vehicle. Basic criteria of similarity used in choosing the design parameters of the setup, parameters of the coolant and model liquids, were numbers of Reynolds, Prandtl, Biot, and Nusselt. The used coolants were gases, including air and nitrogen; in addition, at the stage of preliminary experiments, products of combustion of hydroxyl-terminated polybutadiene (HTPB) were considered. Boundary conditions were taken for the liquid located on the plate in the form of “drop” and at its uniform film spread in the experimental model setup. On the basis of experimental investigations, the temperature values were obtained for the system “gas-liquid-wall”, and areas of mass transfer surface and heat transfer coefficients of “gas-liquid” and “gas-plate” were determined for coolants (air and nitrogen) and for liquids (water and kerosene). The comparative analysis of the obtained results and the known data was carried out. Proposals for experiments using coolants based on HTPB combustion products have been formulated.
ISSN:0869-8643
1531-8699
DOI:10.1134/S0869864317050109