Improved, top feed, cookstove was found to perform better than the traditional cookstove, both in terms of thermal efficiency and emissions. Around 99 % of the particles were found in the fine range of 0.3-1 ¦Ìm for both the cookstoves. Count median diameter (CMD) for improved cookstove was found to be 1.47 (with 3.76 as Geometric standard deviation (GSD)) as compared to 1.55 (with 3.73 as GSD) for the traditional cookstove, indicating a shift towards fine range particles. The total particle-number emission factor (TPNEF) and mass emission factor (MEF) for ten wood types were higher in traditional cookstove with an average value of 2.7 ¡Á 1013 kg? 1 and 6.17 g kg? 1 respectively. In case of improved cookstove TPNEF and MEF were found to be 7.6 ¡Á 1012 kg? 1and 0.72 g kg? 1 respectively indicating significant decrease in PM emissions. The size range of particles was also validated with scanning electron microscopy (SEM) by calculating actual size of the primary particles emitted from the combustion of a particular wood type. The findings of this study highlight the effect of cookstove design on resultant particle emissions and their distribution in various size ranges.