1 C.-H. Kuo, "Wake flow pattern modified by small control cylinders at low Reynolds number" Elsevier BV 23 (23): 938-956, 2007
2 Bin Qin, "Two tandem cylinders of different diameters in cross-flow: flow-induced vibration" Cambridge University Press (CUP) 829 : 621-658, 2017
3 Longjun Wang, "Two tandem cylinders of different diameters in cross-flow: effect of an upstream cylinder on wake dynamics" Cambridge University Press (CUP) 836 : 5-42, 2018
4 Alam, M.M., "Turbulent wake of an inclined cylinder with water running" 589 : 261-303, 2007
5 Md MAHBUB ALAM, "The wake of two side-by-side square cylinders" Cambridge University Press (CUP) 669 : 432-471, 2011
6 M. Susan Bloor, "The transition to turbulence in the wake of a circular cylinder" Cambridge University Press (CUP) 19 (19): 290-, 1964
7 J. H. Gerrard, "The mechanics of the formation region of vortices behind bluff bodies" Cambridge University Press (CUP) 25 (25): 401-413, 1966
8 M.M. Zdravkovich, "The effects of interference between circular cylinders in cross flow" Elsevier BV 1 (1): 239-261, 1987
9 Md. Mahbub Alam, "The aerodynamics of a cylinder submerged in the wake of another" Elsevier BV 51 : 393-400, 2014
10 Md. Mahbub Alam, "The aerodynamics of a cylinder submerged in the wake of another" Elsevier BV 51 : 393-400, 2014
1 C.-H. Kuo, "Wake flow pattern modified by small control cylinders at low Reynolds number" Elsevier BV 23 (23): 938-956, 2007
2 Bin Qin, "Two tandem cylinders of different diameters in cross-flow: flow-induced vibration" Cambridge University Press (CUP) 829 : 621-658, 2017
3 Longjun Wang, "Two tandem cylinders of different diameters in cross-flow: effect of an upstream cylinder on wake dynamics" Cambridge University Press (CUP) 836 : 5-42, 2018
4 Alam, M.M., "Turbulent wake of an inclined cylinder with water running" 589 : 261-303, 2007
5 Md MAHBUB ALAM, "The wake of two side-by-side square cylinders" Cambridge University Press (CUP) 669 : 432-471, 2011
6 M. Susan Bloor, "The transition to turbulence in the wake of a circular cylinder" Cambridge University Press (CUP) 19 (19): 290-, 1964
7 J. H. Gerrard, "The mechanics of the formation region of vortices behind bluff bodies" Cambridge University Press (CUP) 25 (25): 401-413, 1966
8 M.M. Zdravkovich, "The effects of interference between circular cylinders in cross flow" Elsevier BV 1 (1): 239-261, 1987
9 Md. Mahbub Alam, "The aerodynamics of a cylinder submerged in the wake of another" Elsevier BV 51 : 393-400, 2014
10 Md. Mahbub Alam, "The aerodynamics of a cylinder submerged in the wake of another" Elsevier BV 51 : 393-400, 2014
11 Md. Mahbub Alam, "Strouhal numbers, forces and flow structures around two tandem cylinders of different diameters" Elsevier BV 24 (24): 505-526, 2008
12 M.D. MAHBUB ALAM, "SUPPRESSION OF FLUID FORCES ACTING ON TWO SQUARE PRISMS IN A TANDEM ARRANGEMENT BY PASSIVE CONTROL OF FLOW" Elsevier BV 16 (16): 1073-1092, 2002
13 Md.Mahbub Alam, "Reduction of fluid forces acting on a single circular cylinder and two circular cylinders by using tripping rods" Elsevier BV 18 (18): 347-366, 2003
14 Lixia Qu, "Quantitative numerical analysis of flow past a circular cylinder at Reynolds number between 50 and 200" Elsevier BV 39 : 347-370, 2013
15 C. Liu, "Preconditioned Multigrid Methods for Unsteady Incompressible Flows" Elsevier BV 139 (139): 35-57, 1998
16 E Berger, "Periodic Flow Phenomena" Annual Reviews 4 (4): 313-340, 1972
17 F Bouak, "Passive control of the aerodynamic forces acting on a circular cylinder" Elsevier BV 16 (16): 112-121, 1998
18 H. Sakamoto, "Optimum Suppression of Fluid Forces Acting on a Circular Cylinder" ASME International 116 (116): 221-227, 1994
19 Roshko, A, "On the drag and shedding frequency of bluff body"
20 H. Ding, "Numerical simulation of flows around two circular cylinders by mesh-free least square-based finite difference methods" Wiley 53 (53): 305-332, 2007
21 Meneghini, J.R., "Numerical simulation of flow interference between two circular cylinders in tandem and side-by-side arrangements" 15 (15): 327-350, 2001
22 P.F. Zhang, "Numerical simulation of flow around cylinder with an upstream rod in tandem at low Reynolds numbers" Elsevier BV 28 (28): 183-192, 2006
23 Necati Mahír, "Numerical investigation of convective heat transfer in unsteady flow past two cylinders in tandem arrangements" Elsevier BV 29 (29): 1309-1318, 2008
24 Necati Mahir, "Numerical Investigation of Flow and Heat Transfer Characteristics of Two Tandem Circular Cylinders of Different Diameters" Informa UK Limited 38 (38): 1367-1381, 2016
25 Md. Mahbub Alam, "Lift forces induced by phase lag between the vortex sheddings from two tandem bluff bodies" Elsevier BV 65 : 217-237, 2016
26 Qinmin Zheng, "Intrinsic features of flow past three square prisms in side-by-side arrangement" Cambridge University Press (CUP) 826 : 996-1033, 2017
27 Chen, Y.N., "Implicit weighted essentially non-oscillatory schemes for the incompressible Navier–Stokes equations" 31 : 747-765, 1999
28 C. Norberg, "Fluctuating lift on a circular cylinder: review and new measurements" Elsevier BV 17 (17): 57-96, 2003
29 Md.Mahbub Alam, "Fluctuating fluid forces acting on two circular cylinders in a tandem arrangement at a subcritical Reynolds number" Elsevier BV 91 (91): 139-154, 2003
30 Mittal, S., "Flow past bluff bodies : effect of blockage" 20 : 163-173, 2006
31 Gao, Y., "Experimental study on the flow around two tandem cylinders with unequal diameters" 13 (13): 761-770, 2014
32 T. K. Prasanth, "Effect of blockage on free vibration of a circular cylinder at low Re" Wiley 58 (58): 1063-1080, 2008
33 Md. Mahbub Alam, "Effect of a T-shaped plate on reduction in fluid forces on two tandem cylinders in a cross-flow" Elsevier BV 94 (94): 525-551, 2006
34 H. Sakamoto, "Effect of Free-Stream Turbulence on Characteristics of Fluctuating Forces Acting on Two Square Prisms in Tandem Arrangement" ASME International 110 (110): 140-146, 1988
35 Tamotsu Igarashi, "Drag reduction of a square prism by flow control using a small rod" Elsevier BV 69-71 : 141-153, 1997
36 T. Tsutsui, "Drag reduction of a circular cylinder in an air-stream" Elsevier BV 90 (90): 527-541, 2002
37 Honglei Bai, "Dependence of square cylinder wake on Reynolds number" AIP Publishing 30 (30): 015102-, 2018
38 C. H. K. Williamson, "Defining a universal and continuous Strouhal–Reynolds number relationship for the laminar vortex shedding of a circular cylinder" AIP Publishing 31 (31): 2742-, 1988
39 Huai-Lung Ma, "Control of boundary layer flow and lock-on of wake behind a circular cylinder with a normal slit" Elsevier BV 59 : 99-114, 2016
40 Tamotsu IGARASHI, "Characteristics of a Flow around Two Circular Cylinders of Different Diameters Arranged in Tandem" Japan Society of Mechanical Engineers 25 (25): 349-357, 1982
41 Schlichting, H., "Boundary layer theory" Springer Berlin 2003
42 Philip M. Gresho, "A modified finite element method for solving the time-dependent, incompressible Navier-Stokes equations. Part 2: Applications" Wiley 4 (4): 619-640, 1984
43 A. Prasad, "A method for the reduction of bluff body drag" Elsevier BV 69-71 : 155-167, 1997
44 Farhan Zafar, "A low Reynolds number flow and heat transfer topology of a cylinder in a wake" AIP Publishing 30 (30): 083603-, 2018
45 Mark N. Linnick, "A high-order immersed interface method for simulating unsteady incompressible flows on irregular domains" Elsevier BV 204 (204): 157-192, 2005