Iranian Nanotechnology Society International Journal of Nanoscience and Nanotechnology 1735-7004 15 3 2019 08 01 Steady State Analysis of Nanofuel Droplet ‎Evaporation 145 155 36248 EN J. O. Asibor Department of Mechanical Engineering, Faculty of Engineering, University of Benin, 1154, ‎Benin City, Nigeria.‎ O. Ighodaro Department of Mechanical Engineering, Faculty of Engineering, University of Benin, 1154, ‎Benin City, Nigeria.‎ Journal Article 2018 12 19 <em>The potential for nanofuels as one of the clean sources of energy on account of its enhanced combustion performance coupled with low emissions has been established. Considering the importance of the fuel evaporation phase in the entire combustion process, this work presents an attempt at applying the steady state analysis equations </em><em>to nanofuel experimental data obtained from the literature in droplet evaporation analysis. The </em><em>evaporation parameters considered included the rate, constant value (k), the droplet lifetime as well as the D² Law response. </em><em>The extent of applicability of the steady state analysis model equations to nanofuel droplet evaporation was investigated using nanofuel experimental data consisting of ethanol and alumina nanoparticles as well as n-decane and alumina nanoparticles with particle concentration ranging from 0.5-2.5%</em><em>. T</em><em>he evaporation rate was found to decrease with increasing nanoparticle addition while the droplet lifetime increased marginally, thus validating experimentally obtained result.</em><em> The</em><em> nanoparticle inclusion had no effect on the evaporation rate constant value (k) as it remained unchanged throughout the droplet evaporation progression, thus showing adherence to the Classical</em><em> D² Law.</em> https://www.ijnnonline.net/article_36248_5800ccd9514fd789d08e5831951aa6bc.pdf