[1] Chang C.H. and Meroney R.N., “The Effect of Surroundings with Different Separation Distances on Surface Pressures on Low-Rise Buildings,” Journal of Wind Engineering and Industrial Aerodynamics, v. 91, n. 8, 2003, pp. 1039-1050.
[2] Blocken B. and Carmeliet J., “A Review of Wind-Driven Rain Research in Building Science”, Journal of Wind Engineering and Industrial Aerodynamics, v. 92, n. 13, 2004, pp. 1079-1130.
[3] Sicot, C., Deliancourt, F., Boree, J., Aguinaga, S. and Bouchet, J.P., “Representativeness of Geometrical Details During Wind Tunnel Tests. Application to Train Aerodynamics in Crosswind Conditions”, Journal of Wind Engineering and Industrial Aerodynamics, v.177, 2018, pp.186-196.
[4] Bayati, I., Belloli, M., Bernini, L. and Zasso, A., “Aerodynamic Design Methodology for Wind Tunnel Tests of Wind Turbine Rotors”, Journal of Wind Engineering and Industrial Aerodynamics, v. 167, 2017, pp.217-227.
[5] Rae, W.H. and Pope, A., Low-speed wind tunnel testing (No. BOOK), John Wiley, 1984.
[6] Meroney R.N., Leitl B.M., Rafailidis S. and Schatzmann, M., “Wind-Tunnel and Numerical Modeling of Flow and Dispersion about Several Building Shapes”, Journal of Wind Engineering and Industrial Aerodynamics, v. 81, 1999, pp. 333-345.
[7] Gordon R., and Imbabi M.S., “CFD Simulation and Experimental Validation of a New Closed Circuit Wind/Water Tunnel Design,” Journal of Fluids Engineering – Transactions of the ASME, v. 120, n. 2, 1998, pp. 311-318.
[8] Ghani, S.A.A.A., Aroussi, A. and Rice, E., “Simulation of Road Vehicle Natural Environment in a Climatic Wind Tunnel”, Simulation Practice and Theory, v. 8, n. 6, 2001, pp. 359-375.
[9] Moonen P., Blocken B., Carmeliet J., “Indicators for the Evaluation of Wind Tunnel Test Section Flow Quality and Application to a Numerical Closed-Circuit Wind Tunnel”, International Journal of Wind Engineering and Industrial Aerodynamics, v. 95, 2007, pp.1289-1314.
[10] Zehrung, C.A.,Comparative Analysis of a Low-Speed Wind Tunnel Designed for Renewable Energy Applications, (M.Sc. Thesis), Purdue University, 2011.
[11] Moonen, P., Blocken, B., Roels, S., Carmeliet J., “Numerical Modeling of the Flow Condition in a Closed-Circuit Low-Speed Wind Tunnel” International Journal of Wind Engineering and Industrial Aerodynamics, v. 94, 2006, pp.699-723.
[12] Mathew, J., Design, Fabrication, and Characterization of an Anechoic Wind Tunnel Facility, (Ph.D. Thesis), University of Florida, 2006.
[13] Eckert, W.T., Mort, K.K. and Jope, J., “Aerodynamic Design Guidelines and Computer Program for Estimation of Subsonic Wind Tunnel Performance”, NASA TN D-8243, 1976.
[14] Bender, T.J., Bergstrom, D.J. and Rezkallah, K.S., “A Study on the Effects of Wind Intake Flow Rate of a Cooling Tower. Part 3: Numerical Study”, Journal of Wind Engineering andIndustrial Aerodynamics, v. 64, 1996, pp. 81-100.
[15] Senol S., and Cinar A., “Design and Flow Simulation of an Opn Circuit Wind Tunnel,” Engine. Soft International Conference, 2009, pp. 11-14.
[16] Thiart, G.D., A Numerical Procedure for Predicting the Effects of Distorted Inflow Conditions on the Performance of Axial Flow Fans, (PhD Thesis), Department of Mechanical Engineering, University of Stellenbosch, 1990.
[17] Fluent, A., Fluent 12, Theory guide, 2017.
[18] LTG Axial-Flow and Centrifugal Fans, LTG Incorpated, Technical Brochure.
[19] British Standards Institution, Fans for General Purposes, Part 1, Methods for Testing Performance, BS 848, 1997.
[20] van der Spuy, S.J., von Backstrom, T.W. and Kroger, D.G., “An Evaluation of Simplified Methods to Model the Performance of Axial Flow Fan Arrays”, R & D Journal of the South African Institution of Mechanical Engineering, v. 26, 2010, pp. 12-20.
[21] Buice, C.U., Experimental Investigation of Flow through an Asymmetric Plane Diffuser, (Ph.D. thesis), Stanford University, Stanford, 1997.