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出 处:《湖南大学学报(自然科学版)》2014年第4期72-77,共6页Journal of Hunan University:Natural Sciences
基 金:国家自然科学基金资助项目(51108174;51378199);湖南省科技计划资助项目(2013GK3020)
摘 要:针对5B-ZBC1输电塔,采用数值试验的方法研究了风速、初始风攻角、输电塔高差和导线覆冰厚度对输电塔纵向不平衡张力的影响.作用在输电塔线上的脉动风时程是利用谐波合成法生成,通过改变高差、覆冰厚度,获得了输电塔上纵向不平衡张力的变化规律.该规律表明,在一些情况下现行规范规定所计算的输电塔不平衡张力偏小.在此基础上提出了山区这类塔型在雪荷载和风荷载共同作用下的纵向不平衡张力的理论公式.该公式的结果与数值试验结果相比误差在±6%以内,具有较好的精度.A numerical experiment was adopted to analyze the effects of wind speed, initial wind angle, elevation difference and ice thickness on the longitudinal unbalance tension of transmission tower. Harmo- ny-superposition method was used to simulate the fluctuating wind speed time series acting on the trans- mission tower line, and the law of unbalance tension was derived by changing elevation difference and ice thickness. The results have shown that, in some cases, the value of the longitudinal unbalance tension of the tower in existing electricity industry standard is smaller. Based on computational analysis, the theoret- ical formula of the longitudinal unbalance tension of towers subjected to wind and snow simultaneously was proposed. The errors of the formula are within ± 6 % compared with numerical simulation. It has prefera- ble accuracy.
分 类 号:TB83[一般工业技术—摄影技术] TM753[电气工程—电力系统及自动化]
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