Transitional free convection flow and heat transfer within attics in cold climate-Reference-Cited by-同舟云学术

Transitional free convection flow and heat transfer within attics in cold climate

Published:2022 Issue:6 Part A Volume:26 Page:4699-4709
ISSN:0354-9836
Container-title:Thermal Science
language:en
Short-container-title:THERM SCI

Author:

Cui Huimin¹,Wang Wenyue²,Xu Feng³,Saha Suvash⁴,Liu Qingkuan⁵

Affiliation:

1. Department of Mathematics and Physics, Shijiazhuang Tiedao University, Shijiazhuang, China + State Key Laboratory of Mechanical Behavior and System Safety of Traffic Engineering Structures, Shijiazhuang Tiedao University, Shijiazhuang, China + Innovation Center for Wind Engineering and Wind Energy Technology of Hebei Province, Shijiazhuang, China

2. Department of Mathematics and Physics, Shijiazhuang Tiedao University, Shijiazhuang, China

3. School of Civil Engineering, Beijing Jiaotong University, Beijing, China

4. School of Mechanical and Mechatronic Engineering, Faculty of Engineering and Information Technology, University of Technology, Sydney, Australia

5. State Key Laboratory of Mechanical Behavior and System Safety of Traffic Engineering Structures, Shijiazhuang Tiedao University, Shijiazhuang, China + Innovation Center for Wind Engineering and Wind Energy Technology of Hebei Province, Shijiazhuang , China + School of Civil Engineering, Shijiazhuang Tiedao University, Shijiazhuang, China

Abstract

The transitional free convection flow and heat transfer within attics in cold climate are investigated using 3-D numerical simulations for a range of Rayleigh numbers from 103 to 106 and height-length ratios from 0.1 to 1.5. The development process of free convection in the attic could be classified into three-stages: an initial stage, a transitional stage, and a fully developed stage. Flow structures in different stages including transverse and longitudinal rolls are critically analyzed in terms of the location and strength of convection rolls and their impacts on the heat transfer. The transition unsteady flow and asymmetry flow in the fully developed stage is discussed for the fixed height-length ratio 0.5. Various flow regimes are given in a bifurcation diagram in the parameter space of Rayleigh numbers (102 < Ra < 107) for height-length ratios (0.1 < A < 1.5). The time series of heat transfer rate through the bottom wall is quantified for different height-length ratios. The overall heat transfer rate for the low Prandtl fluid (Pr = 0.7) could be enhanced based on 3-D flow structure.

Publisher

National Library of Serbia

Subject

Renewable Energy, Sustainability and the Environment

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