[1] 朱鹏, 柯世堂. 不同导风装置对超大型冷却塔风荷载与稳定性的影响研究[C]∥中国电力规划设计协会土水专委会2015年水工专业技术研讨会. 合肥, 中国电力规划设计协会, 2015: 271-279.
ZHU Peng, KE Shitang. Impact study of the different airdeflectors on the wind loads and stability for superlarge cooling towers[C]∥ China association of electric power planning and design of soil water of hydraulic professional 2015 technology seminar, Hefei: China association of electric power planning and design of soil water , 2015: 271279.
[2] WANG H, LI A, NIU J, et al. Longterm monitoring of wind characteristics at Sutong Bridge site [J]. Journal of Wind Engineering & Industrial Aerodynamics, 2013, 115(4):39-47.
[3] KE Shitang, LIANG Jun, ZHAO Lin ,et al. Influence of ventilation rate on the aerodynamic interference for two IDCTs by CFD [J]. Wind and Structures, An International Journal, 2015,20(3): 18-37.
[4] 鲍侃袁, 沈国辉, 孙炳楠. 大型双曲冷却塔平均风荷载的数值模拟研究[J]. 空气动力学学报, 2009, 27(06): 650-655.
BAO kanyuan, SHEN Guohui, SUN bingnan. numerical simulation of mean wind load on large hyperbolic cooling tower [J]. Acta Aerodynamica Sinica, 2009, 27(06): 650-655.
[5] 沈国辉, 余关鹏, 孙炳楠, 等. 大型冷却塔风致响应的干扰效应[J]. 浙江大学学报: 工学版, 2012, 01(1):33-38.
SHEN Guohui, YU Guanpeng, SUN Bingnan. Interference effect of windinduced response on large hyperbolic cooling tower [J]. Journal of Zhejiang University∶Engineering Science. 2012, 01(1): 33-38.
[6] JUHASOVA E, BITTNAR Z, FISCHER O. Vibration characteristics of a coolingtower shell [J]. Journal of Wind Engineering And Industrial Aerodynamics, 1983. 12(2): 145-154.
[7] 邹云峰, 牛华伟, 陈政清. 超大型冷却塔单塔外表面风荷载三维效应及其设计取值[J]. 振动与冲击, 2013, 32(24): 76-82.
ZOU Yunfeng, NIU Huawei, CHEN Zhenqing. Threedimensional effect and design values of outer surface wind loading for single superlarge cooling tower [J]. Journal of Vibration and Shock, 2013, 32(24): 76-82.
[8] ARMITT J. Wind loading on cooling towers [J]. Journal of Structural Division. 1980, 106(ST3):623-641.
[9] 柯世堂, 侯宪安, 赵林,等. 超大型冷却塔风荷载和风振响应参数分析: 自激力效应[J]. 土木工程学报, 2012:45-53.
KE Shitang, HOU Xianan, ZHAO Lin. Parameter analysis of wind loads and wind induced responses for superlarge cooling towers: selfexcited force effect [J]. China Civil Engineering Journal. 2012: 45-53.
[10] 柯世堂, 杜凌云. 不同气动措施对特大型冷却塔风致响应及稳定性能影响分析[J]. 湖南大学学报:自然科学版, 2016, 43(5): 79-89.
KE Shitang, DU Lingyun. Study on windinduced strength and stability for super large cooling tower with different aerodynamic measures based on wind tunnel [J]. Journal of Hunan University:Natural Sciences. 2016, 43(5): 79-89.
[11] ZHANG J F, CHEN H, GE Y J, et al. Effects of stiffening rings on the dynamic properties of hyperboloidal cooling towers[J]. Structural engineering and mechanics, An International Journal, 2014. 49(5): 619-629.
[12] NIEMANN H J, RUHWEDEL J. Fullscale and model tests on windinduced static and dynamic stresses in cooling towers shells [J]. Engineering Structures, 1980(2): 81-89.
[13] CHENG X X, ZHAO L, GE Y J, et al. Wind pressures on a large cooling tower [J]. Advances in Structural Engineering, 2014, 18(2): 201-212. |