Heat transfer to supercritical pressure hydrocarbons flowing in a horizontal short tube

•Heat transfer characteristics of hydrocarbon fuel were investigated in a short tube.•Different mechanisms are analyzed in respective improved heat transfer process.•The deteriorated heat transfer is caused by gas-resistance and coke deposition.•Heat flux, fluid velocity and inlet temperature were s...

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Bibliographic Details
Published in:Experimental thermal and fluid science 2015-02, Vol.61, p.144-152
Main Authors: Yang, Zhuqiang, Bi, Qincheng, Liu, Zhaohui, Guo, Yong, Yan, Jianguo
Format: Article
Language:English
Subjects:
Fluid dynamics
Fluid flow
Fluids
Heat flux
Heat transfer
Horizontal
Horizontal tube
Hydrocarbons
Supercritical pressure
Supercritical pressures
Tubes
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Summary:•Heat transfer characteristics of hydrocarbon fuel were investigated in a short tube.•Different mechanisms are analyzed in respective improved heat transfer process.•The deteriorated heat transfer is caused by gas-resistance and coke deposition.•Heat flux, fluid velocity and inlet temperature were studied as effect parameters.•The maximum of ratio q/G was obtained as a criterion of the engineering design. The heat transfer characteristics of hydrocarbon fuel were investigated in a short horizontal tube with a 1.0mm inside diameter. The experiments were conducted in test tubes that were 46mm and 116mm in length at a supercritical pressure of 3.0MPa. The experimental parameters included a liquid velocity of 0.21–1.20m/s, an inlet fluid temperature of 298–673K, and various heat fluxes. Different heat transfer regions were designated based on the heat transfer behavior. The mechanisms of heat transfer enhancement and deterioration are discussed. Heat transfer was improved by thermophysical property variation, thermoacoustic oscillation, and endothermic reactions of the hydrocarbons in the respective processes. Heat transfer deterioration was characterized by gas resistance and coke deposition in the boundary fluid. Heat flux, fluid velocity, and inlet temperature were studied in depth as effective parameters. The allowed maximum ratios between heat flux and mass flow rate at various velocities and inlet fluid temperatures are given and could be used as criteria for future applications.
ISSN:0894-1777
1879-2286
DOI:10.1016/j.expthermflusci.2014.10.024