Diesel Fuels and Their Surrogates

• G. Kukkadapu, B.W. Weber, and C.J. Sung, “Autoignition Study of Tetralin in a Rapid Compression Machine at Elevated Pressures and Low-to-Intermediate Temperatures”, Fuel, 159 (2015) 436-445.
• G. Kukkadapu and C. J. Sung, “Autoignition Study of ULSD#2 and FD9A Diesel Blends”, Combustion and Flame 166, 45-54 (2016).
• G. Kukkadapu and C. J. Sung, “Autoignition study of 1-Methylnaphthalene in a Rapid Compression Machine,” Energy and Fuels 31 (1), 854-866 (January 2017).
• G. Kukkadapu and C. J. Sung, “Autoignition study of binary blends of n- dodecane/ 1-methylnaphthalene and iso- cetane/1-methylnaphthalene” Combustion and Flame 189, 367-377 (2018).
• M. Wang, K. Zhang, G. Kukkadapu, S. W. Wagnon, M. Mehl, W. J. Pitz, and C. J. Sung, “Autoignition of trans-Decalin, a Diesel Surrogate Compound: Rapid Compression Machine Experiments and Chemical Kinetic Modeling”, Combustion and Flame 194, 152-163 (2018).
• M. Wang, G. Kukkadapu, K. Zhang, S. W. Wagnon, M. Mehl, W. J. Pitz, C. K. Westbrook, and C. J. Sung, “Autoignition of CRC Diesel Surrogates at Low Temperature Combustion Conditions: Rapid Compression Machine Experiments and Modeling”, Combustion and Flame 219, 178-197 (2020).