This paper presents the results of a number of calculations carried out in order to simulate combustion past obstacles of different shape and blockage ratio. The obstacle shapes considered are circles, squares, triangles and flat plates. Two-dimensional simulations are carried out with the McNEWT code. The code solves the reacting flow field with a laminar flamelet model on an unstructured mesh. Adaptive mesh refinement is applied so that the flame front is accompanied by mesh refinement throughout the calculation domain. A transition from laminar to turbulent combustion induced by passage past the obstacle is seen in the simulations. Evidence for the transition is found in the change in flame shape, flame speed and pressure. The simulations are compared with experimental data and there is good agreement between experiment and simulation. (C) 2002 Elsevier Science Ltd. All rights reserved.