Simulation study on hydrodynamic and salinity effects after lagoon connection in Lingshui County, Hainan Province
LI Shuijuan1, CAO Zan1, WANG Lingling2
1. Shenzhen Water Planning and Design Institute Co., Ltd., Shenzhen 518001; 2. College of Water Conservancy & Hydropower Engineering, Hohai University, Nanjing 210098
Abstract:With the development of social economy and acceleration of urbanization, the lagoon has become a part of human water resources utilization. Because of the influence of domestic sewage and industrial wastewater discharged and human activities, most lakes are polluted in different degree. Numerical simulation of lake water ecology could quickly and accurately establish lake hydrodynamic model, analyze hydrodynamic characteristics and variation rules, provide scientific basis for lake environmental protection work, and provide the basis for environment management and monitoring departments to provide water quality status quo and simulation prediction analysis, so as to make better scientific decisions. The hydrodynamic and salinity distribution of the lakes under the condition of connectivity were studied, and furthermore the impact of the project to the aquatic plants was analyzed to provide a basis for scientific decision-making of the "Ling Shui County double lakes" (the two lagoons of Xincun Port and Li'an Port) connectivity project in Hainan Province. It can provide a reference for the numerical simulation of lagoons.
李水娟, 曹赞, 王玲玲. 海南陵水县潟湖连通后水动力和盐度影响模拟研究[J]. 中国防汛抗旱, 2022, 32(12): 68-74.
LI Shuijuan, CAO Zan, WANG Lingling. Simulation study on hydrodynamic and salinity effects after lagoon connection in Lingshui County, Hainan Province. journal1, 2022, 32(12): 68-74.
[1] 吴桑云, 王文海, 陈则实, 等. 中国海湾引论[M]. 北京:海洋出版社, 2007. [2] 田向平, 李春初. 潟湖潮汐通道水力特性与治理[J]. 海洋通报, 2006, 25(4):9-15. [3] 张沛东, 孙燕, 牛淑娜, 等. 海草种子休眠、萌发、幼苗生长及其影响因素的研究进展[J]. 应用生态学报, 2011, 22(11):3060-3066. [4] 安晓华. 中国珊瑚礁及其生态系统综合分析与研究[D]. 青岛:中国海洋大学, 2003. [5] Jones R J, Kerswell A P. Phytotoxicity of photosystem II (PSII) herbicides to coral[J]. Marine Ecology Progress Series, 2003, 261:149-159. [6] 谭维炎. 计算浅水动力学一有限体积法的应用[M]. 北京:清华大学出版社, 1998. [7] 金忠青. N-S方程的数值解和紊流模型[M]. 南京:河海大学出版社, 1989. [8] 虞邦义, 施奇, 倪晋, 等. 关于巢湖水交换能力的探讨[J]. 中国防汛抗旱, 2018, 28(12):26-29. [9] 雷文韬, 姚仕明, 刘同宦, 等. 基于MIKE模型的赣江下游廿四联圩防洪保护区洪水分析计算[J]. 中国防汛抗旱, 2018, 28(7):18-23. [10] Wang Y, Yu Y M, Lu L. Numerical simulation of COD concentration distribution in Yanming 2# lake based on MIKE 21[J]. Taylor & Francis-Balkema, 2012:614-617. [11] Danish Hydraulic Institute(DHI). MIKE21 flow model FM hydrodynamicmodule user guide[R]. 2008. [12] Danish Hydraulic Institute(DHI). MIKE 21& MIKE3 flow model FM hydrodynamic[R].2008. [13] 张利. 基于MIKE21 FM模型的跨河电缆塔基水动力模拟研究[J]. 中国防汛抗旱, 2018, 28(12):74-77. [14] Rodi W.Turbulence models and their applications in hydraulics[J]. The Nertherlands:IAHR, Publications Delft, 1984.