This paper presents a series of experiments conducted to assess the potential of smouldering combustion as it novel technology for remediation of contaminated land by water-immiscible organic compounds. The results from a detailed study of the conditions under which a Smouldering reaction propagates in sand embedded with coal tar are presented. The objective of the Study is to provide further understanding of the governing mechanisms of smouldering combustion of liquids in porous media. A small-scale apparatus consisting of a 100-mm in diameter quartz cylinder arranged in an upward configuration Was used for the experiments. Thermocouple measurements and visible digital imaging served to track and characterize the ignition and propagation of the smouldering reaction. These two diagnostics are combined here to provide valuable information on the development of the reaction front. Post-treatment analyses of the sand were used to assess the amount of coal tar remaining in the soil. Experiments explored a range of inlet airflows and fuel concentrations. The smouldering ignition of coal tar was achieved for all the conditions presented here and self-sustained propagation was established after the igniter Was turned off. It was found that the combustion is oxygen limited and peak temperatures in the range 800-1080 degrees C were observed. The peak temperature increased with the airflow at the lower range of flows but decreased with airflow at the higher range of flows. Higher airflows were found to produce faster propagation. Higher fuel concentrations were found to produce higher peak temperatures and slower propagation. The measured mass removal of coal tar was above 99% for sand obtained from the core and 98% for sand in the periphery of the apparatus. (C) 2009 The Combustion Institute. Published by Elsevier Inc. All rights reserved.