实验室条件下不同盐度水体去分层试验  

作　　者：张琨 韩宇宁 李乐洲 周玮 Zhang Kun;Han Yuning;Li Lezhou;Zhou Wei(School of Ocean and Civil Engineering,Dalian Ocean University,Dalian 116021,China;College of Fisheries and Life Science,Dalian Ocean University,Dalian 116021,China)

机构地区：[1]大连海洋大学海洋与土木工程学院,大连116021 [2]大连海洋大学水产与生命学院,大连116021

出　　处：《农业工程学报》2022年第17期240-245,共6页Transactions of the Chinese Society of Agricultural Engineering

基　　金：大连市科技创新基金项目(2020JJ26SN063);辽宁省兴辽英才项目“海参安全高效智慧养殖系统研究项目”(XLYC1808029)。

摘　　要：水产养殖中水体分层在水中形成屏障,阻碍质量和能量交换,进而导致水质恶化,影响水体中生物的生长。针对此问题,该研究在实验室条件下对玻璃水槽中2种不同盐度水体(淡水和4%NaCl溶液)染色,仅依靠浮力作用,观测水体去分层过程的准备、起动、混合和均匀4个阶段;在压力差的驱动下,形成“上升流”式的上涌对流,发现流体上浮至分层界面发生混合并使跃层增厚,最终引起分层水体失稳破坏。依据试验结果总结出水体分层破坏过程分为准备、起动、混合和均匀4个阶段,在给定工况下,100L/h输水流量混合作用最强且完全混合的时间最短,25L/h输水流量混合作用最弱且完全混合的时间最长。该文发现在一定盐度差异下,水体去分层起动时间和完全混合时间的变化规律对水产养殖产业有促进作用。Salinity stratification has caused the uneven distribution of nutrients in the water body for aquaculture.A barrier layer can be normally formed to hinder the exchange of quality and energy,leading to the deterioration of water quality.Therefore,stratification can pose a great threat to the growth of organisms in the water body.In this study,two kinds of water bodies were dyed with different salinity in a glass tank in the laboratory.Four stages of water body delamination were observed:preparation,start-up,mixing,and homogenization,when depending only on buoyancy.Among them,the pressure difference was driven to form the upwelling convection of the"upwelling"type.The upwelling was then floated up to the layered interface for the mixing and thick thermocline.Eventually,the layered water body triggered the instability and destruction.The experimental system consisted of a glass tank,a backwater collecting tank,a water injection,and a backwater part.Specifically,the glass tank was the main body of the system.The backwater collecting tank was composed of sample bottles,whose upper edge of the horizontal position was aligned with the experimental tank.The water injection part also included the small submersible pump,diverter,plastic hose,and acrylic pipe.The water in the return collection tank was firstly delivered by the small submersible pump,and then carried to the predetermined water layer of the test tank via the diverter and plastic hose.In the backwater part,the inlet of acrylic connectors was set on the surface of the experimental water tank,while the outlet was on the bottom of the backwater tank.The water level of the experimental water tank was kept stable by the siphoning during operation.The salinity change was recorded on the surface,subsurface,middle,sub bottom,and bottom layer.Five groups of sensors were used to online monitor the process,when the water pipe was delivered the fresh water of different flows to the bottom layer of the tank.The results show that there was a significant impact of the water

关 键 词：环境 养殖 水质 水体去分层 盐度分布 混合时间 

分 类 号：S96[农业科学—水产养殖]