|
[1]Nikolay Shkolnik, Alexander C. Shkolnik, 2005, “High Efficiency Hybrid Cycle Engine ”, Proceedings of the ASME Fall Conference on Internal Combustion Engines, ICEF2005-1221, 2005, doi:10.1115/ICEF2005-1221.
[2]Shkolnik, A., Littera, D., Nickerson, M., Shkolnik, N. et al., 2014, “ Development of a Small Rotary SICI Combustion Engine ”, SAE Technical Paper 2014-32-0104, 2014, doi:10.4271/2014-32-0104.
[3]D. Littera, M. Nickerson, A. Kopache, G. Machamada, C. Sun, A. Schramm, N. Medeiros, K. Becker, N. Shkolnik, A. Shkolnik, 2015, “ Development of the XMv3 High Efficiency Cycloidal Engine ”, SAE Technical Paper 2015-32-0719, 2015.
[4]Tiago J. Costa, Mark Nickerson , Daniele Littera , Jorge Martins, Alexander Shkolnik , Nikolay Shkolnik , Francisco Brito, 2016, “ Measurement and Prediction of Heat Transfer Losses on the XMv3 Rotary Engine ”, SAE Technical Paper 2016-32-0033, 2016, doi:10.4271/2016-32-0033.
[5]Thirumal Valavan Harikrishnan, Suryanarayana Challa, Dachapalli Radhakrishna, 2016, “ Numerical Investigation on the Effects of Flame Propagation in Rotary Engine Performance With Leakage and Different Recess Shapes Using Three-Dimensional Computational Fluid Dynamics”, J. Energy Resour. Technol 138(5), 052210, Paper No: JERT-15-1325, May 25, 2016, doi: 10.1115/1.4033572.
[6] https://youtu.be/0e785YnDmq0?t=70
[7] Hsieh, C. F. (2018). Dynamics Analysis of the Triangular Rotary Engine Structures. ASME Journal of Engineering for Gas Turbines and Power, 140(11), 112804.
[8] Hsieh, C. F., & Cheng, H. Y. (2015). Effects of Various Geometric Designs on the Flow Characteristics of a Triangular Rotary Engine. Mechanical Engineering Research, 5(1), 1-1
[9] Hsieh, C. F. (2010). Non-undercutting region and property evaluation of epitrochoidal gerotor geometry. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 224(2), 473-481.
|