1 Israel, R., "Use of a generalized Stokes number to determine the aerodynamic capture efficiency of non-Stokesian particles from a compressible gas flow" 2 : 45-51, 1983
2 Sumner, D., "Two circular cylinders in cross-flow: A review" 26 : 849-899, 2010
3 Muhr, W., "Theoretical and experimental investigation of particle deposition in fibrous filters by field and inertial forces" Institut für Mechanische Verfahrenstechnik und Mechanik, Universität 1976
4 Haugen, N.E.L., "Particle impaction on a cylinder in a crossflow as function of Stokes and Reynolds numbers" 661 : 239-261, 2010
5 Williamson, C.H.K., "Oblique and parallel modes of vortex shedding in the wake of a circular cylinder at low Reynolds numbers" 206 : 579-627, 1989
6 Park, J., "Numerical solutions of flow past a circular cylinder at Reynolds numbers up to 160" 12 (12): 1200-1205, 1998
7 Silva, A.L.F.L.E., "Numerical simulation of two-dimensional flows over a circular cylinder using the immersed boundary method" 189 : 351-370, 2003
8 Yao, J., "Numerical simulation of particle dispersion in the wake of a circular cylinder" 43 : 174-187, 2009
9 Carmo, B.S., "Numerical investigation of the flow around two circular cylinders in tandem" 22 : 979-988, 2006
10 Bouris, D., "Numerical evaluation of alternate tube configurations for particle deposition rate reduction in heat exchanger tube bundles" 22 : 525-536, 2001
1 Israel, R., "Use of a generalized Stokes number to determine the aerodynamic capture efficiency of non-Stokesian particles from a compressible gas flow" 2 : 45-51, 1983
2 Sumner, D., "Two circular cylinders in cross-flow: A review" 26 : 849-899, 2010
3 Muhr, W., "Theoretical and experimental investigation of particle deposition in fibrous filters by field and inertial forces" Institut für Mechanische Verfahrenstechnik und Mechanik, Universität 1976
4 Haugen, N.E.L., "Particle impaction on a cylinder in a crossflow as function of Stokes and Reynolds numbers" 661 : 239-261, 2010
5 Williamson, C.H.K., "Oblique and parallel modes of vortex shedding in the wake of a circular cylinder at low Reynolds numbers" 206 : 579-627, 1989
6 Park, J., "Numerical solutions of flow past a circular cylinder at Reynolds numbers up to 160" 12 (12): 1200-1205, 1998
7 Silva, A.L.F.L.E., "Numerical simulation of two-dimensional flows over a circular cylinder using the immersed boundary method" 189 : 351-370, 2003
8 Yao, J., "Numerical simulation of particle dispersion in the wake of a circular cylinder" 43 : 174-187, 2009
9 Carmo, B.S., "Numerical investigation of the flow around two circular cylinders in tandem" 22 : 979-988, 2006
10 Bouris, D., "Numerical evaluation of alternate tube configurations for particle deposition rate reduction in heat exchanger tube bundles" 22 : 525-536, 2001
11 Haugen, N.E.L., "MSWI super heater tube bundle: Particle impaction efficiency and size distribution" 106 : 416-422, 2013
12 Kang, S., "Characteristics of flow over two circular cylinders in a side-by-side arrangement at low Reynolds numbers" 15 (15): 2486-2498, 2003
13 Morsi, S.A., "An investigation of particle trajectories in two-phase flow systems" 55 (55): 193-208, 1972
14 Han, H., "A parameter study of tube bundle heat exchangers for fouling rate reduction" 72 : 210-221, 2014
15 Brandon, D.J., "A numerical investigation of particle deposition on a square cylinder placed in a channel flow" 34 : 340-352, 2001