The Behavior of Turbulent Heat Transfer Deterioration in Supercritical Hydrocarbon Fuel Flow Considering Thermal Resistance Distribution

The Behavior of Turbulent Heat Transfer Deterioration in Supercritical Hydrocarbon Fuel Flow Considering Thermal Resistance Distribution

To highlight the thermal management of the cooling system in an advanced engine, the flow and heat transfer characteristics of turbulent hydrocarbon fuel flow in a rectangular channel are numerically explored in detail. The severe condition of deteriorated behavior is investigated in the heat transf...

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Bibliographic Details
Published in:International journal of thermal sciences Vol. 141; pp. 19 - 32
Main Authors: Sun, Feng, Li, Yong, Sunden, Bengt, Xie, Gongnan
Format: Journal Article
Language:English
Published: Elsevier Masson SAS 01-07-2019
Subjects:
Energiteknik
Energy Engineering
Engineering and Technology
Heat transfer deterioration
Maskinteknik
Mechanical Engineering
Supercritical hydrocarbon fuel
Teknik
Thermal resistance
Thermo-physical properties
Turbulent flow
Heat transfer deterioration
Turbulent flow
Supercritical hydrocarbon fuel
Thermal resistance
Thermo-physical properties
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Summary:To highlight the thermal management of the cooling system in an advanced engine, the flow and heat transfer characteristics of turbulent hydrocarbon fuel flow in a rectangular channel are numerically explored in detail. The severe condition of deteriorated behavior is investigated in the heat transfer process. Considering buoyancy force effects, a three-dimensional numerical model is established and a validated SST k-ω turbulence model is adopted at real working conditions. It is found that there is a strong thermal stratification phenomenon near the heated wall, which sufficiently proves that the splitting up of flow field needs to be considered. The fluctuating characteristics and a relative stable state of flow and heat transfer is performed in the deteriorated and recovery region, respectively. In addition, taking the viscous sublayer and core turbulent field into consideration, a new deteriorated prediction based on the thermal resistance mechanism is proposed and it performed well to evaluate the onset of the deteriorated environment. Under certain conditions, the local deteriorated behavior is strongly related to the form of thermal resistance. •Turbulent flow with supercritical hydrocarbon fuel for scramjet cooling is studied.•Heat transfer deterioration considering behavior buoyancy force effects are evaluated.•A thermally stratified turbulent flow and three typical regions is observed and discussed.•A new method to predict the deteriorated behavior based on thermal resistance is proposed.
ISSN:1290-0729
1778-4166
DOI:10.1016/j.ijthermalsci.2019.03.027