Buoyancy induced heat transfer and fluid flow inside a tilted wavy solar collector

Yasin Varol; Hakan F. Oztop

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Buoyancy induced heat transfer and fluid flow inside a tilted wavy solar collector

机译：浮力引起的热传递和流体在倾斜的波浪形太阳能收集器内流动

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Natural convection heat transfer and fluid flow were investigated inside a wavy walled and inclined solar collector, numerically. Flat ceiling was considered as cover (cold temperature) of solar collector and wavy wall as absorber (hot temperature). CFDRC commercial code was used to solve laminar-governing equations of natural convection. Working fluid was considered as air with Pr = 0.71 inside the collector. Parameters that affect the flow and temperature field are Rayleigh number, inclination angle, aspect ratio, and wavelength. Flow and temperature fields were presented by streamlines and isotherms. Local and mean Nusselt numbers were calculated. Results indicate that heat transfer is increased with increasing Rayleigh number and aspect ratio, and is decreased with increasing wavelength.

机译：数值研究了波浪形壁壁倾斜太阳能收集器内部的自然对流传热和流体流动。平面天花板被视为太阳能集热器的覆盖层（冷温度），而波浪壁被视为吸收器（热温度）。 CFDRC商业代码用于求解自然对流的层流控制方程。收集器内部的工作流体被认为是空气，Pr = 0.71。影响流场和温度场的参数是瑞利数，倾角，纵横比和波长。流场和温度场由流线和等温线表示。计算本地和平均努塞尔数。结果表明，传热随着瑞利数和纵横比的增加而增加，而随着波长的增加而减少。

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来源
《Building and Environment》 |2007年第5期|p.2062-2071|共10页
作者
Yasin Varol; Hakan F. Oztop;
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作者单位

Department of Mechanical Engineering, Vanderbilt University, Nashville, TN 37235, USA;

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原文格式 PDF
正文语种 eng
中图分类建筑科学;
关键词
natural convection; wavy solar collector; inclined enclosure;

机译：自然对流;波浪形太阳能集热器;倾斜外壳;
入库时间 2022-08-17 23:55:11

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1. Buoyancy Induced Heat Transfer Flow Inside a Tilted Square Enclosure Filled with Nanofluids in the Presence of Oriented Magnetic Field [J] . Khamis S. Al Kalbani, Mohammad M. Rahman, Md. Shariful Alam, Heat Transfer Engineering . 2018,第5a8期

机译：在定向磁场作用下，充满纳米流体的可倾斜方形外壳内部浮力引起的传热流
2. Increasing the Convective Heat Transfer Coefficient Inside Heat Removal Channels of Sheet-Piped Light-Absorbing Panels of Flat-Plate Solar Collectors in the Laminar Flow Regime of Heat Transfer Fluid [J] . R. R. Avezov, A. U. Vokhidov, U. H. Ibragimov, Applied solar energy . 2020,第2期

机译：在传热流体的层流动状态下增加平板太阳能收集器的板式光吸收板的热移除通道内部的对流传热系数
3. Numerical investigation of the buoyancy-induced flow field and heat transfer inside solar chimneys [J] . E. BACHAROUDIS, M. GR. VRACHOPOULOS, M. K. KOUKOU, WSEAS Transactions on Heat and Mass Transfer . 2006,第2期

机译：太阳烟囱内浮力引起的流场和传热的数值研究
4. BUOYANCY INDUCED HEAT TRANSFER AND FLUID FLOW INSIDE A PRISMATIC CAVITY [C] . Walid Aich, Ahmed Omri, Sassi Ben Nasrallah International Symposium on Convective Heat and Mass Transfer in Sustainable Energy . 2009

机译：浮力诱导传热和棱柱腔内的流体流动
5. Numerical Characterization of the Flow Field and Heat Transfer Inside the Receiver of a Parabolic Trough Solar Collector Carrying Supercritical CO2 [D] . Gharehdaghimollahajloo, Samad. 2017

机译：带有超临界CO2的抛物槽式太阳能集热器接收器内部流场和传热的数值表征
6. Analysis of Heat Transfers inside Counterflow Plate Heat Exchanger Augmented by an Auxiliary Fluid Flow [O] . A.-R. A. Khaled -1

机译：辅助流体增加对流板式换热器内部传热的分析
7. Discussion: “Force Convection Heat Transfer at an Inclined and Yawed Square Plate—Application to Solar Collectors” (Sparrow, E. M., and Tien, K. K., 1977, ASME J. Heat Transfer, 99, pp. 507–512) and “Local Heat Transfer and Fluid Flow Characteristics for Airflow Oblique or Normal to Square Plate” (Tien, K. K., and Sparrow, E. M., 1979, Internation Journal of Heat and Mass Transfer, 22, pp. 349–359) and “Effect of Finite Width on Heat Transfer and Fluid Flow about an Inclined Rectangular Plate” (Sparrow, E. M., Ramsey, J. W., and Mass, E. A., 1979, ASME J. Heat Transfer, 101, pp. 199–204) [O] . B. Nimmo, S. Zubair 1981

机译：讨论：“在倾斜和偏航的方形板应用于太阳能收集器的强制对流传热”（Sparrow，EM和Tien，KK，1977，Asme J.传热，99，PP。507-512）和“局部热量用于气流倾斜或正常板的转移和流体流动特性“（Tien，KK和Sparrow，EM，1979，热量和传质杂志，22，pp.349-359）和”有限宽度对热量的影响关于倾斜矩形板的转移和流体流动“（Sparrow，EM，Ramsey，JW和Mass，EA，1979，ASME J.传热，101，PP。199-204）

Buoyancy induced heat transfer and fluid flow inside a tilted wavy solar collector

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