Flow and dispersion through groups of obstacles : based on the proceedings of a conference on flow and dispersion through groups of obstacles, organized by the Institute of Mathematics and Its Applications and held at the University of Cambridge in March 1994

This text, intended for researchers in fluid mechanics and applied mathematics, contains a selection of papers from an IMA conference on flow and dispersion through groups of obstacles. The papers all concern the problem of modelling the flow through large numbers of obstacles, and of predicting the disperion of material transported by the flow.

1: H.L. Higson, R.F. Griffiths, C.D. Jones and C.A. Biltoft: A Field Investigation of Concentration Fluctuations Near and Isolated Cube. 2: M.M. Zdravkovich: Interstitial Flow in Tube Arrays: A Series of Formidable Paadoxes. 3: P.J. Walklate and K-L. Weinere: Penetration of a Uniform Row Canopy Structure by a Moving Air-jet. 4: M. Poreh: Bulk Properties of Dispersion from Ground Level Sources over a Non-Isotropic Urban Canopy. 5: K. Okabayashi, Y. Ide, K. Kitabayashi, S. Okamoto and K. Kobayashi: The Effect of Wind Directional Fluctuations on Gas Diffusion Behind Obstacles. 6: J. Brechling and Y.K. Fannelop: The Modelling of the Atmospheric Boundary Layer in a Wind Tunnel with an Open Test Section and its Application for Investigations of the Flow around Buildings. 8: R. Smith: Pollution via Many Routes. 9: R. Berkowicz, O. Hertel, N.N. Sorensen and J.A. Michelsen: Modelling Air Pollution from Traffic in Urban Areas. 10: M.W. Rotach: The Turbulence Structure in an Urban Roughness Sublayer. 11: N. Jerram, S.E. Belcher and J.C.R. Hut: Turbulent Flow Through a Distributed Force - A Model for the Wind Within and Above an Urban Canopy. 12: P.J. Shopov: A Concept for Mathematical Modelling of Heavy Gas Dispersion Through Groups of Obstacles. 13: D.M. Ingram, P. Batten, D.M. Causon and R. Saunders: The Representations of Small Scale Obstructions in Hydrocode Calculations. 14: B. Jiang, D.M. Ingram, D.M. Causon and R. Saunders: Numerical Prediction of Confined Gas Cloud Detonation. 15: A.M. Savill and I. Solberg: Some Improvements to PDR/k-e Model Predictions for Explosions in Confined Geometrics