Affiliation:
1. Harbin Institute of Technology
Abstract
A high efficient current control strategy of the Stirling linear generators was investigated in this paper. The structure of the linear generator was introduced and mathematical model was built. The efficiency of the system is compared in different current modes. The highest efficiency control strategy is calculated in the conditions of without magnetic saturation, iron-loss, mechanical loss and treating inductance as a constant. At the same time, the maximum ratio of the electromagnetic power to current control is realized. Finally, this algorithm was validated in the simulation and experiment.
Publisher
Trans Tech Publications, Ltd.
Reference13 articles.
1. J.G. Wood, C. Carroll, L.B. Penswick, Advanced 80 We Stirling Convertor Development Progress, AIP Conference Proceedings, 2005, pp.688-697.
2. J.G. Wood, C. Carroll, D. Matejczyk, Advanced 80 We Stirling Convertor Phase II Development Progress, 3rd International Energy Conversion Engineering Conference, 2005, pp.1-12.
3. J. Huth, J. Collins, Diesel Fuel-to-Electric Energy Conversion Using Compact, Portable, Stirling Engine-Based Systems, 13th International Stirling Engine Conference, (2007).
4. S.S. Gerber, M. Jamison, T.F. Regan, M.E. Roth, Advanced Controller for the Free-Piston Stirling Convertor, 2nd International Energy Conversion Engineering Conference, 2004, pp.1-11.
5. S S. Gerber, M. Jamison, T.F. Regan, M.E. Roth, Advanced Controller for the Free-Piston Stirling Convertor, 2nd International Energy Conversion Engineering Conference, 2004, pp.1-11.