• 不 限
  • 期刊论文
  • 硕博论文
  • 会议论文
  • 报 纸
  • 英文论文
  2. 您的位置
  3. 首页
  4. 期刊论文
  5. Active flow control with rotating cylinders by an artificial neural network trained by deep reinforc

Active flow control with rotating cylinders by an artificial neural network trained by deep reinforc

来源 :水动力学研究与进展B辑 | 被引量 : 0次 | 上传用户:studied1234
【摘 要】
In this paper,an artificial neural network (ANN) trained through a deep reinforcement learning (DRL) agent is used to perform flow control.The target is to look for the wake stabilization mechanism in an active way.The flow past a 2-D cylinder with a Reyn
【作 者】
Hui Xu Wei Zhang Jian Deng Jean Rabault 
【机 构】
School of Aeronautics and Astronautics,Shanghai Jiao Tong University,Shanghai 200240,China;Departmen
【出 处】
水动力学研究与进展B辑
【发表日期】
2020年2期
【关键词】
Artificial neural network (ANN) deep reinforcement learning (DRL) flow control r 
下载到本地 , 更方便阅读
下载此文 赞助VIP
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
In this paper,an artificial neural network (ANN) trained through a deep reinforcement learning (DRL) agent is used to perform flow control.The target is to look for the wake stabilization mechanism in an active way.The flow past a 2-D cylinder with a Reynolds number 240 is addressed with and without a control strategy.The control strategy is based on using two small rotating cylinders which are located at two symmetrical positions back of the main cylinder.The rotating speed of the counter-rotating small cylinder pair is determined by the ANN and DRL approach.By performing the final test,the interaction of the counter-rotating small cylinder pair with the wake of the main cylinder is able to stabilize the periodic shedding of the main cylinder wake.This demonstrates that the way of establishing this control strategy is reliable and viable.In another way,the internal interaction mechanism in this control method can be explored by the ANN and DRL approach.
其他文献
A time domain three-dimensional sono-elastic method for ships' vibration and acoustic radiation
The classical three-dimensional hydroelasticity of ships is extend to include the effect of fluid compressibility,which yields the three-dimensional sono-elasticity of ships.To enable the predictions of coupled transient or nonlinear vibrations and acoust
期刊
Hydroelasticitysono-elasticitytime domainFourier transformvibrationacoustic
Impacts of vegetation over bedforms on flow characteristics in gravel-bed rivers
In the present study, among six gravel-bed river reaches, two natural gravel-bed river reaches with approximately similar bedforms and flow conditions have been found, one river reach with vegetation on bedforms and the other without vegetation on bedform
期刊
BedformReynolds shear stress distributionturbulence intensityvegetationveloc
Numerical simulation of micro-bubble drag reduction of an axisymmetric body using OpenFOAM
The two-phase micro-bubble flow over an axisymmetric body is investigated using the OpenFOAM framework. The numerical model consists of an Eulerian-Eulerian two-fluid model with closure relationships for the interfacial momentum transfer to capture the mu
期刊
Eulerian-Eulerian two-fluid modelaxisymmetric bodymicro bubblesdrag reduction
Experimental investigation of combined vibrations for a hydrofoil-rod system at low Reynold numbers
A hydrodynamic tunnel experimental investigation and analysis of vibration characteristics for a hydrofoil in a transient regime is considered.Tests are performed for NACA 0017 models with a non-uniform section at an angle of attack AOA =5° and Reynolds n
期刊
Vibrationslifting bodiestransitionlaminar separation bubbles
Objective Omega vortex identification method
A new vortex identification method (Liu et al.2016) was proposed to represent the rotation relative strength and capture and visualize the vortices in our previous study.The basic idea of the Ω method is that a ratio of the vorticity squared over the summ
期刊
Vortex identificationthe Ω methodobjectivityturbulence visualizationturbulen
Productivity analysis of a fractured horizontal well in a shale gas reservoir based on discrete frac
The treatment of horizontal wells with massive hydraulic fracturing technology is important for the economical development of shale gas reservoirs,but sometimes is complex because of the induced fractures during the fracturing process.The studies of the f
期刊
Fractured horizontal welldiscrete fracture network (DFN) modelfinite element m
Explicit formula for the Liutex vector and physical meaning of vorticity based on the Liutex-Shear d
In the present study,the physical meaning of vorticity is revisited based on the Liutex-Shear (RS) decomposition proposed by Liu et al.in the framework of Liutex (previously called Rortex),a vortex vector field with information of both rotation axis and s
期刊
VorticityLiutexLiutex-Shear (RS) decompositionexplicit formula of Liutex
RANS feasibility study of using roughness to mimic transition strip effect on the crossflowseparatio
An axisymmetric body at incidence experiences the three-dimensional crossflow separation.This separation is attributed to the adverse circumferential pressure gradient.However,the separation pattern is also dependent upon the structure of the boundary lay
期刊
Axisymmetric bodycrossflow separationtransition strip deviceCFDRANS equation
Numerical simulation of hydrodynamic environment effects of the reclamation project of Nanhui tidal
The reclamation is the main method in the coast exploitation,and the assessment of the hydrodynamic environment effect of the reclamation project is important for project\'s site selection and environmental protection.With consideration of the baroclini
期刊
Yangtze Estuary3-D numerical modelhydrodynamicsnutrientsreclamation project
Emergent vegetation flow with varying vertical porosity
The vertical distribution of an emergent vegetation in wetlands and marshes is generally non-uniform due to the variations of the stem thickness and the leaf density. This study focuses on the effect of the varying vertical porosity on the hydrodynamic ch
期刊
Emergent vegetation flowvelocity distributionvarying vertical porosityfinite