Debris-flows are forms of landslides in mountainous regions that can potentially cause significant damage. Structural countermeasures to mitigate an entire debrisflow may become unrealistically large and expensive. If the flow cannot be stopped completely, one may alternatively consider reducing the impact and velocity of the flow using energy dissipating structures. A debris-flow screen is such countermeasure designed to dissipate energy. A screen is made by parallel grids, with some gap, placed in the direction of the debris-flow on an elevated foundation. This structure acts as a filter for separating water from the saturated debris-flow to reduce its flow energy. This work presents a laboratory model test investigating the effect of screen length (0.5 m and 1.0 m) and opening width (2 mm, 4 mm and 6 mm) in dissipating the debris-flow energy. The effectiveness of the screens was determined in terms of reductions in the run-out distance and flow velocity. The importance of the screen length and opening width is demonstrated. A hypothesis that the optimum opening size should be close to d50 of the solid material seems to be validated. The application of the laboratory observations to the field is indicated based on the energy line and scaling principles.