PDF全文下载:20160100073
于鹏伟, 辛旋, 范静雯, 李庆领*
(青岛科技大学 机电工程学院,山东 青岛 266061)
摘要: 采用KD2 Pro热特性分析仪测定不同温度下耐冬(Common camellia)和樱花树(Flowering cherry)两种植物根部的导热系数,并得到不同温度范围内根部导热系数与温度间的近似关系式。通过对比分析导热系数曲线得出结论:耐寒植物根部的导热系数在0 ℃以上随温度的升高变化不大,在0 ℃以下随温度的降低而迅速升高;非耐寒植物根部的导热系数,随温度的升高变化不大,在一个很小的范围内上下波动;环境温度在10 ℃以下,耐寒植物根部的导热系数都大于非耐寒植物根部的导热系数。
关键词: 耐寒植物; 导热系数; KD2 Pro; 耐冬; 樱花树
中图分类号: TK 6 文献标志码: A
Determination of Coefficient of Thermal Conductivity in Hardy Plants Roots
YU Pengwei, XIN Xuan, FAN Jingwen, LI Qingling
(College of Electromechanical Engineering, Qingdao University of Science and Technology, Qingdao 266061, China)
Abstract: The coefficient of thermal conductivity of two kinds of roots (separately Common camellia and Flowering cherry) were determined by KD2 Pro Sensor Compatibility, and the approximate relations between the coefficient of thermal conductivity of root and temperature were obtained as well. It is concluded by contrasting curves of coefficient of thermal conductivity that the coefficient of thermal conductivity of hardy plant roots changed little with increasing temperature above 0 ℃, nevertheless, it increased rapidly with decreasing temperature below 0 ℃; the coefficient of thermal conductivity of nonhardy plant roots fluctuated within a small range with the temperature change; the coefficient of thermal conductivity of hardy plant roots was always larger than that of nonhardy plant roots when the temperature was below 10 ℃.
Key words: hardy plants; coefficient of thermal conductivity; KD2 Pro; Common camellia; Flowing cherry
收稿日期: 20141112
作者简介: 于鹏伟(1989—),男,硕士研究生. *通信联系人.
文章编号:16726987(2016)01007304; DOI: 10.16351/j.16726987.2016.01.015
