References
- Abu-Zaid, M. (2004). Performance of single cylinder, direct injection diesel engine using water fuel emulsion. Energy Convers. Manage. 45:697–705.
- Attia, A. M. A., and Kulchitskiy, A. R. (2014). Influence of the structure of water-in-fuel emulsion on diesel engine performance. Fuel 116:703–708.
- Basha, J. S., and Anand, R. B. (2011a). An experimental study in a CI engine using nanoadditive blended water–diesel emulsion fuel. Int. J. Green Energy 8:332–348.
- Basha, J. S., and Anand, R. B. (2011b). An experimental investigation in a diesel engine using carbon nanotubes blended water-diesel emulsion fuel. Proc. Instit. Mech. Eng. 2011:225–279.
- Basha, J. S., and Anand, R. B. (2012). Effects of nanoparticle additive in the water-diesel emulsion fuel on the performance, emission and combustion characteristics of a diesel engine. Int. J. Vehicle Des. 59:164–181.
- DeLuca, L. T., Galfetti, L., and Severini, F. (2005). Combustion of composite solid propellants with nanosized aluminium. Combust. Explos. Shock Waves 41:680–692.
- Ghannam, M. T., and Selim, M. Y. E. (2009). Stability behavior of water-in-diesel fuel emulsion. Pet. Sci. Technol. 27:396–411.
- Hernández Battez, A., González, R., Viesca, J. L., Fernández, J. E., Díaz-Fernández, J. M., Machado, A., Chou, R., and Riba, J. (2008). CuO, ZrO2 and ZnO nanoparticles as antiwear additive in oil lubricants. Wear 265:422–428.
- Hwang, Y., Lee, J. K., Lee, C. H., Jung, Y. M., Cheong, S. I., Lee, C. G., Ku, B. C., and Jang, S. P. (2007). Stability and thermal conductivity characteristics of nanofluids. Thermochim. Acta 445:70–74.
- Kao, M. J., Ting, C. C., Lin, B. F., and Tsung. T. T. (2008). Aqueous aluminium nanofluid combustion in diesel fuel. J. Testing Eval. 36:1–5.
- Morozumi, Y., and Saito, Y. (2010). Effect of physical properties on micro explosion occurrence in water-in-oil emulsion droplets. Energy Fuels 24:1854–1859.
- Patil, H., Gadhave, A., Mane, S., and Waghmare, J. (2015). Formulation of oxygenated water-in-diesel fuel emulsion and investigation of its properties. Pet. Sci. Technol. 33:211–217.
- Selim, M. Y. E., and Ghannam, M. T. (2009). Combustion study of stabilized water-in-diesel emulsion. Energy Sources, Part A 32:256–274.
- Talam, S., Karumaririni, S. R., and Gunnam, N. (2012). Synthesis, characterization and spectroscopic properties of zno nanoparticles. ISRN Nanotechnol. 2012:1–6.
- Umar, A., and Hahn, Y.-B. (2010). Metal oxide nanostructures and their applications. Valencia, CA: American Scientific.
- Vellaiyan, S., and Amirthagadeswaran, K. S. (2015). Combustion and performance characteristics of water-in-diesel emulsion fuel. Energy Sources, Part A 37:2020–2028.
- Vellaiyan, S., Amirthagadeswaran, K. S., Kumar, V., and Babu, V. (2014). Emission characteristics of diesel engine using water-in-diesel emulsified fuel and its CFD analysis. Int. J. Appl. Environ. Sci. 9:2739–2749.
- Wakefield, G., Wu, X., Gardener, M., Park, B., and Anderson, S. (2008). Envirox fuel-borne catalyst: developing and launching a nano-fuel additive. Technol. Anal. Strat. Manage. 20:127–136.
- Yetter, R. A., Risha, G. A., and Son, S. F. (2009). Metal particle combustion and nanotechnology. Proc. Combust. Instit. 32:1819–1838.