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作 者:Ivan Malakhov Anton Surtaev Vladimir Serdyukov Ali Kosar Alexander Pavlenko
机构地区:[1]The Laboratory of Low-Temperature Thermophysics,Kutateladze Institute of Thermophysics,Novosibirsk,630090,Russia [2]Physical Department,Novosibirsk State University,Novosibirsk,630090,Russia [3]Center of Excellence for Functional Surfaces and Interfaces(EFSUN),Faculty of Engineering and Natural Sciences(FENS),Sabanci University,Orhanli,Tuzla,Istanbul,34956,Turkey
出 处:《Frontiers in Heat and Mass Transfer》2024年第6期1645-1660,共16页热量和质量传递前沿(英文)
基 金:The work was carried out under the state contract of IT SB RAS(No.121031800216-1);supported by the joint funding of RFBR(No.20-58-46008,Anton Surtaev);TUBITAK(No.119N401,Ali Kosar).
摘 要:To date,using biphilic surfaces is one of the most promising methods for enhancing heat transfer and critical heat flux during boiling simultaneously.However,most of studies on the effect of biphilic surfaces on boiling perfor-mance have been carried out under atmospheric pressure conditions.In this context,the issues of heat transfer enhancement and stabilization of the boiling process at subatmospheric pressures are particularly critical due to the interesting characteristics of boiling heat transfer and bubble dynamics at subatmospheric pressures and their practical significance including aerospace applications.This paper investigates the effect of the pitch size between hydrophobic spots on a biphilic surface on heat transfer and bubble dynamics during boiling at subatmospheric pressures(from 11.2 kPa up to atmospheric pressure).The data analysis using infrared thermography demonstrated that the maximum heat transfer rate was achieved on a surface with a uniform pitch size(6 mm)at all pressures.In this case,the heat transfer enhancement,compared a bare surface,reached 3.4 times.An analysis of the departure diameters of bubbles based on high-speed visualization indicated that the optimal configuration of the biphilic surface corresponds to the pitch size equal to the bubble departure diameter.Using high-speed visualization also demonstrated that an early transition to film boiling was evident for configurations with a very high density of hydrophobic spots(pitch size of 2 mm).
关 键 词:BOILING subatmospheric pressures heat transfer pitch size optimal configuration biphilic surfaces
分 类 号:TK172[动力工程及工程热物理—热能工程]
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