李楠

个人信息Personal Information

副教授

硕士生导师

主要任职:能源与动力学院副院长

其他任职:副院长

性别:男

毕业院校:大连理工大学

学位:博士

所在单位:能源与动力学院

学科:能源与环境工程

办公地点:大连理工大学西部校区新能动大楼815

联系方式:0411-84707057

电子邮箱:nanli.energy@dlut.edu.cn

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Effects of porous media on thermal and salt diffusion of solar pond

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论文类型:期刊论文

发表时间:2011-07-01

发表刊物:APPLIED ENERGY

收录刊物:SCIE、EI

卷号:88

期号:7

页面范围:2445-2453

ISSN号:0306-2619

关键字:Porous media; Solar pond; Thermal performance; Salt diffusion; Heat storage quantity; Turbidity

摘要:Laboratory and field experiments were carried out along with numerical simulations in this paper to study the effects of porous media on thermal and salt diffusion of the solar ponds. From our laboratory experiments simulating heat transfer inside a solar pond, it is shown that the addition of porous media to the bottom of a solar pond could help enhance its heat insulation effect. The experiment on salt diffusion indicates that the upward diffusion of the salt is slowed down when the porous media are added, which helps maintain the salt gradient. Our field experiments on two small-scaled solar ponds indicate that when porous media are added, the temperature in the lower convective zone (LCZ) of the solar pond is increased. It is also found that the increase in turbidity is repressed by porous media during the replenishment of the salt to the LCZ. Thermal diffusivities and conductivities of brine layers with porous media such as pebble and slag were also respectively measured in this paper based on the unsteady heat conducting principles of a semi-infinite body. These measured thermal properties were then used in our numerical simulations on the effect of porous media on thermal performance of a solar pond. Our simulation results show that brine layer with porous media plays more positive role in heat insulation effect when thermal conductivity of the ground is big. On the other hand, when the ground has a very small thermal conductivity, the performance of solar pond might be deteriorated and total heat storage quantity of solar pond might be reduced by brine layer with porous media. Crown Copyright (C) 2011 Published by Elsevier Ltd. All rights reserved.