Full‐scale experimental and theoretical investigation on wall stress for underground ecological group tanks with four‐circle tangential connections

Hao Zhang, Yi Sun, Jinping Yang, Lei Chen
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Abstract

The storage safety of edible oil is critical for global and Chinese food security. In this study, a practical underground four‐circle tangential group tank with the steel‐plate and concrete structure based on a grain storage warehouse was firstly introduced, and the measured hoop reinforcement stress of the outer tank wall is discussed. Secondly, a numerical model consistent with the practical underground group tank is established from the measured data. The distribution of the hoop reinforcement stress of the outer tank wall under earth pressure is extracted and analyzed thoroughly. Finally, formulas reflecting the properties of the hoop reinforcement stress distribution are presented based on the theoretical analysis, and their accuracy is verified by comparison with the measured data. It could be conducted from the experimental results and theoretical formulas that the outer tank wall is under compressive pressure station generally, and the compressive stress increases with the increasing of the ring angle until reaching a steady state. Moreover, the hoop stress curve follows a disproportional function approximately. The moment at 180° hoop with 1‐m plate belt follows the arc‐tangent function while the moment has a sudden‐change point at 120°, which has minor effect on the reinforcement of this tank wall. Consequently, additional attention should be paid to the effects of this sudden‐change phenomenon on the associated structures in in the process of designing of underground storage tanks.
四圆切向连接地下生态组罐罐壁应力的全尺寸实验和理论研究
食用油的储存安全对全球和中国的粮食安全至关重要。在本研究中,首先介绍了一种基于粮食储藏仓库的钢板混凝土结构的实用地下四圆切向群罐,并讨论了罐外壁箍筋应力的实测值。其次,根据实测数据建立了与实际地下群罐相符的数值模型。提取并深入分析了土压力作用下罐体外壁箍筋应力的分布。最后,在理论分析的基础上给出了反映箍筋应力分布特性的公式,并通过与实测数据的对比验证了其准确性。从实验结果和理论公式可以得出,水箱外壁一般处于压应力站状态,压应力随环角的增大而增大,直至达到稳定状态。此外,箍筋应力曲线近似服从一个反比例函数。1 米板带在 180° 箍筋处的弯矩遵循圆弧-切线函数,而弯矩在 120° 处有一个突变点,这对该罐壁的加固影响较小。因此,在地下储油罐设计过程中,应额外注意这种突变现象对相关结构的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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