In this paper, the measurement of laminar burning velocities for liquid fuel (methanol)-air mixtures is reported at higher mixture temperatures using externally heated meso-scale diverging channel technique. Laminar burning velocity is determined using mass balance between the channel inlet and flame stabilization location for the planar flames appearing at certain conditions of mixture flow rate and equivalence ratio. A linear temperature gradient in the direction of fluid flow was employed to establish planar, stretch free and nearly adiabatic flames in an externally heated diverging quartz channel. Detailed experiments were carried out for an equivalence ratio range of 0.7-1.3 and a mixture temperature range of 350-650 K at 1 atm pressure with an uncertainty of +/- 5% of the actual value. Experimental results are compared with the available results. A good match was observed for S-u,S-o values at 300 K with the literature data and mechanism values. The temperature dependence of laminar burning velocity was also assessed using the correlation Su = S-u,S-o(T-u/T-u,T-o)(alpha), where alpha is the temperature exponent. A minimum alpha value was observed for rich mixtures even at high temperature conditions. (C) 2016 Elsevier Ltd. All rights reserved.