Parallel operation of three-phase self-excited induction generators with different numbers of poles

Abstract Many studies have analysed the steady-state of the isolated self-excited induction generator (SEIG) under balanced/unbalanced conditions. The parallel operation of SEIGs has also been widely studied. However, these analyses have the hidden assumption of an equal number of poles in all the parallel-connected machines. The necessity for expanding the already established power system in addition to integrate different renewable energy sources requires the parallel operation of SEIGs with different numbers of poles. This paper presents a steady-state analysis of parallel-operated SEIGs with different numbers of poles. A mathematical derivation is performed to obtain an equivalent circuit model considering different numbers of poles for each machine. The model is also valid for the case of an equal number of poles. The feasibility of the operation is proven, and the steady-state performance under different conditions are outlined. The analysis is experimentally verified. The computed values are in good agreement with the measured ones. This study is expected to contribute to the expanded application of the SEIG and its integration with renewable energy sources.

[1]  Om Prakash Mahela,et al.  A SURVEY OF SELF-EXCITED INDUCTION GENERATOR RESEARCH , 2013 .

[2]  Nazar H. Malik,et al.  Steady-state analysis of parallel-operated self-excited induction generators , 1993 .

[3]  Nazar H. Malik,et al.  Voltage control of parallel operated self excited induction generators , 1993 .

[4]  Felix A. Farret,et al.  Full expandable model of parallel self-excited induction generators , 2005 .

[5]  Jordan Radosavljević,et al.  Steady-State Analysis of Parallel-Operated Self-Excited Induction Generators Supplying an Unbalanced Load , 2012 .

[6]  S. S. Kumar,et al.  Simplified methods for the analysis of self-excited induction generators , 2017 .

[7]  M. A. Esmaeel Steady State Analysis of A wind Energy Driven Self Excited Induction Generator (SEIG) , 2020, 2020 8th International Conference on Smart Grid (icSmartGrid).

[8]  Chandan Chakraborty,et al.  Performance of parallel-operated self-excited induction generators with the variation of machine parameters , 1999, Proceedings of the IEEE 1999 International Conference on Power Electronics and Drive Systems. PEDS'99 (Cat. No.99TH8475).

[9]  W. Shyy,et al.  Optimization of a Single Lithium-Ion Battery Cell with a Gradient-Based Algorithm , 2013 .

[10]  R. Karthigaivel,et al.  Genetic algorithm-based analysis of wind-driven parallel operated self-excited induction generators supplying isolated loads , 2017 .

[12]  Abdulrahman I. Alolah,et al.  Capacitance requirement for isolated self-exicted induction generator , 1990 .

[13]  T. Toftevaag,et al.  Analysis of parallel operation of seigs with voltage based controller in mini-grid , 2012, 2012 IEEE Third International Conference on Sustainable Energy Technologies (ICSET).

[14]  B. Palle,et al.  Dynamic simulation and analysis of parallel self-excited induction generators for islanded wind farm systems , 2005, IEEE Transactions on Industry Applications.

[15]  Abdulrahman I. Alolah,et al.  Limits on the performance of the three-phase self-excited induction generators , 1990 .

[16]  Chandan Chakraborty,et al.  Analysis of parallel-operated self excited induction generators , 1999 .

[17]  Ismet Kandilli,et al.  Experimental Performance Evaluation of a Power Generation System Using SEIG , 2017 .

[18]  M.H. Haque Demonstration of parallel operation of single-phase and three-phase induction generators for off-grid operation , 2008, 2008 IEEE International Conference on Sustainable Energy Technologies.

[19]  B. Singh,et al.  Studies on the use of conventional induction motors as self-excited induction generators , 1988 .

[20]  Abdulrahman L. Alolah,et al.  Optimization-based steady state analysis of three phase self-excited induction generator , 2000 .

[21]  Ramesh C. Bansal,et al.  Steady-state analysis of self-excited induction generators using genetic algorithm approach under different operating modes , 2013 .

[22]  R.C. Bansal,et al.  Three-phase self-excited induction generators: an overview , 2005, IEEE Transactions on Energy Conversion.

[24]  Li Wang,et al.  Dynamic analyses of parallel operated self-excited induction generators feeding an induction motor load , 1999 .

[25]  Muammer Ermis,et al.  Various induction generator schemes for wind-electricity generation , 1992 .

[26]  Angelo Jose Junqueira Rezek,et al.  Analysis of synchronous and induction generators in parallel operation mode in an isolated electric system , 2017 .

[27]  Praveen Kumar,et al.  State‐of‐the‐art and comprehensive study of renewable energy sources based microgrid with single‐phase self‐excited induction generator , 2020 .

[28]  H. L. Le Roy,et al.  Proceedings of the Fifth Berkeley Symposium on Mathematical Statistics and Probability; Vol. IV , 1969 .

[29]  Xibo Yuan,et al.  Load Capacity Analysis of Self-Excited Induction Generators Based on Routh Criterion , 2019, Energies.

[30]  N. Malik,et al.  Parallel Operation of Self-Excited Induction Generators , 1994 .