进水流速对圆形循环水养殖池流场特性影响的数值模拟  被引量：3

作　　者：李瑞鹏 田云臣 李青飞 丛雪琪 秦海晶 LI Ruipeng;TIAN Yunchen;LI Qingfei;CONG Xueqi;QIN Haijing(College of Computer and Information Engineering,Tianjin Agricultural University,Tianjin 300392,China;Tianjin Key Laboratory of Aquatic Ecology and Aquaculture,Tianjin 300392,China)

机构地区：[1]天津农学院计算机与信息工程学院,天津300392 [2]天津市水产生态及养殖重点实验室,天津300392

出　　处：《渔业科学进展》2024年第3期55-65,共11页Progress in Fishery Sciences

基　　金：国家重点研发计划(2020YFD0900600);国家现代农业产业技术体系(CARS-47);天津市海水养殖产业技术体系(ITTMRS2021000)共同资助。

摘　　要：通过对工厂化循环水养殖进水流速的智能调控,可降低饵料残留,避免水质恶化。为此,本研究采用数值模拟方法探究了进水流速对工厂化循环水养殖池流场特性的影响,并基于该研究设计出一套确定进水流速调控的实验方法。首先,通过对比Standardk-ε、RNGk-ε和Realizablek-ε3种湍流模型及多种壁面函数的仿真效果,确定RNG k-ε模型和标准壁面函数作为仿真配置。同时,针对多相流模型,对欧拉多相流模型和DPM离散相模型进行对比,为提高计算准确性选用DPM离散相模型,并基于上述模型进行网格无关性验证、制定网格划分方案。其次,以大菱鲆(Scophthalmus maximus)养殖为例,模拟不同进水流速下养殖池流场、排污和水温调节的效果。最后,针对仿真结果提出进水流速调控方案。结果显示,日常采用1.0m/s的进水流速,可有效提高适宜流速区面积并控制水处理成本;投饵前,采用0.2m/s的进水流速可以解决循环水养殖中存在的饵料浪费问题;进食结束后,采用1.2m/s的进水流速可快速排出残饵避免水质恶化;水温异常时,采用15℃的水、以1.2 m/s的进水流速注水230 s,可使20℃的水下降到正常水平,精准化控制水温。采用本研究提出的方法,可针对不同养殖生物和养殖环境设计进水流速智能调控策略,可用于解决循环水养殖过程中饵料浪费、水质变差和水温异常等问题。To meet the growing demand for animal food among the population,China has proposed the strategy of building a“Blue Granary,”relying on marine space,marine biological resources,and the application of modern marine high-tech.Industrialized recirculating aquaculture(also known as land-based factory aquaculture,factory aquaculture,or industrial fish farming)has the advantages of high production efficiency and small land occupation.It is a high-density,high-yield,high investment,and cost-effective aquaculture method.The recirculating aquaculture system is in line with the“Blue Granary”strategy,effectively reducing water pollution while ensuring food security.Therefore,in recent years,recirculating aquaculture in China has developed rapidly.In this context to achieve intelligent regulation of the inflow velocity of industrial recirculating aquaculture,this article firstly summarizes the three main factors that affect the inflow velocity from previous research:The flow field velocity of the aquaculture pool,the discharge velocity of the bait(residual bait),and the velocity of temperature regulation.With the improvement of computer software and hardware,computational fluid dynamics(CFD)is gradually being applied in various fields.CFD provides cheap tools for simulation,design,and optimization,as well as tools for analyzing three-dimensional complex flows.In complex cases,measurements are often difficult,even impossible,and CFD can easily provide detailed information on all flow fields.Compared with conventional experiments,CFD has the advantages of no restrictions on parameters,lower cost,and no interference in the flow field.This method can be used in aquaculture to solve the problems of temperature control effects,solid particle emission efficiency,and flow zone division that cannot be directly measured in actual production under different flow rates.At present,there are few studies reporting CFD numerical simulation of multiphase flow in aquaculture.Existing research focuses on the impact of the inlet and outl

关 键 词：离散相模型 颗粒分布 流场特性 水温调控 圆形养殖池 

分 类 号：S955.1[农业科学—水产养殖]