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崇明某风电建设对海塘防汛安全影响分析 被引量:1

Safety Impact Analysis on Seawall Flood Prevention of a Wind Power Construction in Chongming
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摘要 海塘是保障防汛安全的基础设施,是防御风暴潮侵袭的重要防线。某风电项目杆塔建设沿崇明一线海塘内青坎布置,根据《上海市海塘管理办法》,海塘内、外青坎属防汛基础设施,须论证杆塔施工对海塘的安全影响。根据杆塔建设特点,结合上海市海塘管理要求,重点研究了杆塔施工对海塘安全的影响,论证了在海塘青坎上布置杆塔设施的可行性,提出了减小海塘防汛安全影响的措施,可为后续类似项目提供工程借鉴。 Seawall is the infrastructure for ensuring flood prevention safety,is an important defense against storm surge.The tower construction of a wind power project is arranged along the first line seawall inner green ridge in Chongming,According to Shanghai Seawall Management Measures,the green ponds inside and outside the seawall are flood control infrastructure,and the safety impact of the construction of poles and towers on the seawall must be demonstrated.According to the characteristics of tower construction,combined with the management requirements of Shanghai seawall,this paper mainly studies the influence of pole and tower construction on seawall safety,proves the feasibility of laying pole and tower facilities on the green crest of seawall,and puts forward the measures to reduce the influence of seawall flood control safety,which can provide engineering reference for the following similar projects.
作者 旷翀 KUANG Chong(Shanghai Urban Construction Design Research Institute(Group)Co.Ltd.,Shanghai,200125)
机构地区 上海市城市建设设计研究总院(集团)有限公司
出处 《工程建设与设计》 2021年第11期70-73,共4页 Construction & Design for Engineering
关键词 海塘 风电 杆塔 防汛 整体稳定 数值分析 seawall wind power tower flood prevention stability numerical analysis
分类号 TM614 [电气工程—电力系统及自动化] U698.91 [交通运输工程—港口、海岸及近海工程]
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  • 1徐中华,王建华,王卫东.主体地下结构与支护结构相结合的复杂深基坑分析[J].岩土工程学报,2006,28(B11):1355-1359. 被引量:24
  • 2DG/TJ08-61-2010基坑工程技术规范[S].上海,2010.
  • 3中国建筑科学研究院.JGJ120-99建筑基坑支护技术规程[S].北京:中国建筑工业出版社,1999.
  • 4南京水利科学研究院.GB/T50123-1999土工试验方法标准[S].北京:中国标准出版社,1999.
  • 5SCHWEIGER H F, VERMEER P A, WEHNERT M. On the design of deep excavations based on finite element analysis[J]. Geomeehanies and Tunnelling, 2009, 2:333 -344.
  • 6BLACKBURN J T. Automated remote sensing and three dimensional analysis of internally braced excavations[D]. Evanston: Northwestern University, 2005.
  • 7FINNO R J, CALVELLO M. Supported Excavations: Observational method and inverse modeling[J]. Journal of Geoteehnieal and Geoenvironmental Engineering, ASCE, 2005, 131 (7): 826- 836.
  • 8CALVELLO M, FINNO R J. Selecting parameters to optimize in model calibration by inverse analysis[J]. Computers and Geoteehnies, 2004, 31(5): 411-425.
  • 9SCHANZ T, VERMEER P A, BONNIER P G. The Hardening Soil model: formulation and verification[C]// Beyond 2000 in Computational Geotechnics-10 years of PLAXIS. Amsterdam: [s. n.], 1999:281-296.
  • 10BRINKGREVE R B J. Selection of soil models and parameters for geotechnical engineering application[C]// Proceedings of Geo-Frontier Conference. Texas: Soil Properties and Modeling Geo-Institute of ASCE, 2005: 69 -98.

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工程建设与设计
2021年 第11期

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