Extensive analysis of slip power recovery scheme
-
2017-12-31 https://doi.org/10.14419/ijet.v7i1.5.9159 -
Analysis, Feedback Power, Simulation, Slip control recuperation plot, Matlab/Simulink -
Abstract
Enlistment engines square measure the foremost typically used engines in mechanical movement management frameworks. The slip management healing conspire (SPRS) offers speed management of connective hitch engine (SRIM) below synchronous speed. The slip management healing drives is employed as a neighborhood of huge limit pumps and fan drives, shipboards VSCF (variable-speed/consistent recurrence) frameworks, variable-speed hydro pumps/generators thus forth. throughout this paper Associate in Nursing thorough investigation of slip management healing conspire is displayed. reproduction of the originated is finished utilizing MATLAB/SIMULINK condition and trial established is prepared up at intervals the centre for a 2 H.P. engine. The trial and reproduction comes concerning square measure investigated.
-
References
[1] Lavi, R.J. Polge, “Induction Motor Speed Control with Static Inverters in the Rotorâ€, IEEE Transactions on Power Apparatus and Systems, Vol. PAS-85, No. 1, Jan 1966, pp. 76-84.
[2] W Shepherd, J Stanway, “Slip Power Recovery in an Induction Motor by the use of a Thyristor Inverterâ€, IEEE Transaction on Industry and General Applications, Vol. IGA-5, No. 1, Jan/Feb 1969, pp. 74-82.
[3] W Shepherd and A.Q. Khalil, “Capacitive, Compensation of Thyristor Controlled Slip- Energy Recovery Systemâ€, Proceedings IEEE, Vol. 117, No. 5, May 1970, pp. 948-956.
[4] S.K. Pillai, K.M. Desai, “A Static Sherbius Drive with Chopperâ€, IEEE Transaction on Industrial Electronics and Control Industrial Instrumentation, Vol. IEC-24, No. 1, Feb 1977, pp. 24-29.
[5] V.N. Mittle, K. Venkatesan, S.C. Gupta, “Switching Transient in Static Slip-Energy Recovery Driveâ€, IEEE Transaction Power Apparatus and System, Vol. 98, July/August 1979, pp. 1315-1320.
[6] K. Taniguchi, H. Mori, “Application of a Power Chopper to the Thyristor Scherbiusâ€, IEEE Proceedings, Vol. 133, Pt. B, No. 4, July 1986, pp. 225-229.
[7] M.S. Hilderbrandt, “Reference Frame Theory applied to the Analysis of a Slip-Recovery systemâ€, Purudue University 1986.
[8] B.A.T. Al Zahawi, B.L. Jones, W. Drury, “Effect of Rotor rectifier on motor performance in Slip Energy drivesâ€, Canadian Electrical Engineering Journal, Vol. 13, No. 1, 1987.
[9] S.R. Doradla, S. Chakravorty, K.E. Hole, “A new Slip Power Recovery Scheme with Improved Supply Power Factorâ€, IEEE Transaction on Power Electronics, Vol. 3, No. 2, April 1988, pp. 200-207.
[10] Maria G. Ioannides, John A. Tegopoulos, “optimal efficiency Slip-Power Recovery Driveâ€, IEEE Transactions on Energy conversion, Vol. 3, No. 2, June 1988.
[11] G.D. Marques, “Synthesis of active and reactive Power Controllers for the Slip Power Recovery driveâ€, in Proceedings EPE 1989, Vol. 2, Aachen, Germany, Oct. 1989, pp. 829- 833.
[12] E. Akpinar, P. Pillay, “Modeling and Performance of Slip Energy Recovery Induction Motor driveâ€, IEEE Transaction on Energy Conversion, Vol. 5, No. 1, March 1990.
[13] Maria G. Ioannides, John A. Tegopoulos, “Generalized Optimization Slip Power Recovery drivesâ€, IEEE Transaction on Energy Conversion, Vol. 5, No. 1, March 1990.
[14] Y. Baghzouz, M. Azam, “Harmonic Analysis of Slip Power Recovery Drivesâ€, 90/CH 2935-5/90/0000 © 1990 IEEE.
[15] F. Liao, J.I. Sheng, A.L. Thomas, “A New Energy Recovery Scheme for Doubly fed, Adjustable-Speed Induction Motor drivesâ€, IEEE transaction on Industry Applications, Vol. IA-27, No. 4, July/Aug. 1991, pp. 728- 733.
[16] Fundamentals of Electrical Drives, G. K. Dubey, 2002.
[17] S.V.Manikanthan and T.Padmapriya “Recent Trends In M2m Communications In 4g Networks And Evolution Towards 5gâ€International Journal of Pure and Applied Mathematics, ISSN NO:1314-3395, Vol-115, Issue -8, Sep 2017.
[18] T.Padmapriya, Ms. N. Dhivya, Ms U. Udhayamathi, “Minimizing Communication Cost In Wireless Sensor Networks To Avoid Packet Retransmissionâ€, International Innovative Research Journal of Engineering and Technology, Vol. 2, Special Issue, pp. 38-42.
-
Downloads
-
How to Cite
Atkar, R., & Chandramouli, B. (2017). Extensive analysis of slip power recovery scheme. International Journal of Engineering & Technology, 7(1.5), 264-268. https://doi.org/10.14419/ijet.v7i1.5.9159Received date: 2018-01-11
Accepted date: 2018-01-11
Published date: 2017-12-31