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A NOVEL HOUSEHOLD EFFICIENT POWER/ENERGY UTILIZATION AND POWER QUALITY COMPENSATOR DEVICES

A NOVEL HOUSEHOLD EFFICIENT POWER/ENERGY UTILIZATION AND POWER QUALITY COMPENSATOR DEVICES. By A.M Sharaf (SM-IEEE) Roshan Chhetri (Student Member-IEEE) Dept. of Electrical and Computer Engineering University of New Brunswick 26 th – 28 th June 2006. OUTLINE. Introduction

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A NOVEL HOUSEHOLD EFFICIENT POWER/ENERGY UTILIZATION AND POWER QUALITY COMPENSATOR DEVICES

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  1. A NOVEL HOUSEHOLD EFFICIENT POWER/ENERGY UTILIZATION AND POWER QUALITY COMPENSATOR DEVICES By A.M Sharaf (SM-IEEE) Roshan Chhetri (Student Member-IEEE) Dept. of Electrical and Computer Engineering University of New Brunswick 26th – 28th June 2006

  2. OUTLINE • Introduction • System Description • Dynamic Tri Loop Error Driven PI Controller • Result • Summary • Reference

  3. Introduction • Effect of phase load imbalance for 2 phase, 3 wire household load • Damping switching transients • load excursion using modulated filter and capacitor compensator (MPF/C) Green Plug . • The mushrooming use of nonlinear arc type and solid state converter type electric loads can cause real challenges to power quality standards where power quality, security, and reliability are key operational issues. • The paper presents a dynamic voltage stabilization and energy saving device. • The switching transients and load disturbances are greatly reduced

  4. System Description

  5. Various components • Two phase-three wire ac power supplies. • Capacitor bank as the storage input conditioning filters, • Blocking diode • MPFC-Green Plug compensator scheme • Loads: balanced nonlinear RL load, unbalanced nonlinear RL type and the unbalanced nonlinear type converter type load.

  6. Dynamic Tri Loop Error Driven PI Controller

  7. 3 Basic Regulating Loops. • The rms neutral current (In) tracking loop to ensure a minimum neutral return current or imbalance current. • The minimum neutral rms current (Iref= 0.3 pu) reference tracking loop. • The low neutral current harmonic ripple loop for power quality enhancement.

  8. Purpose of Multi-loop dynamic • To minimize switching transients • Maximize power/energy utilization under unbalanced load conditions. • The loop weighing factors is assigned to ensure loop time scaling and dominant loop (1) control action. • The control gains (Kp, Ki) are selected using a guided trial and error method to minimize an objective function as given in appendix.

  9. Novel (MPFC-Green Plug)

  10. Novel (MPFC-Green Plug) • Effective low cost energy utilization device • Power quality enhancement solution for reducing switching transients and load excursions • Use the low cost hybrid modulated tuned arm power filter and a switched capacitor bank compensator.

  11. ResultUnbalanced Non Linear Load Dynamic Responses with MPFC_Green Plug for balanced Non Linear Load Dynamic Responses with MPFC_Green Plug for balanced Non Linear Load

  12. Dynamic Responses with MPFC_Green Plug for balanced Non Linear Load Dynamic Responses with MPFC_Green Plug for balanced Non Linear Load

  13. Dynamic Responses with MPFC_Green Plug for balanced Non Linear Load Dynamic Responses with MPFC_Green Plug for balanced Non Linear Load

  14. Dynamic Responses with MPFC_Green Plug for balanced Non Linear Load Dynamic Responses with MPFC_Green Plug for balanced Non Linear Load

  15. Dynamic Responses without MPFC_Green Plug for balanced Non Linear Load Dynamic Responses with MPFC_Green Plug for balanced Non Linear Load

  16. Summary • Low cost (MPFC-Green Plug) voltage compensation device • Regulated by a dynamic error driven tri-loop switching controller • Reduce the effect of switching transients • Reduce load disturbances. • Efficient electric energy utilization, • Voltage stabilization • Power quality can be enhanced as well as system effective power utilization.

  17. Using of modulated filter and compensator (MPFC-Green Plug), the phase voltages can be maintained at around 1pu • The source power factor is greatly improved. • The transient over-voltages and surge type currents are damped. • Power factor increased and load voltage regulated. • Device is a member of a family of energy saving and dynamic PWM-Modulated power filters.

  18. References • [1] A.M Sharaf, A.R.N.M. Rea UI Haque, “A Low Cost Stand-alone Photovoltaic Scheme for Motorized Hybrid Loads,” 36th IEEE Southeastern Symposium on System Theory (SSST’04), Atlanta, Georgia, USA, March, 2004. • [2] Theodore Wildi, Electrical Machines, Drives, and Power Systems, New Jersey: Prentice Hall, 2002 • [3] Dr. A. M. Sharaf and René Rioux , “Modulated/Switched Dynamic Filter/Compensator (MSDFC) for Energy Efficiency, Savings and Power Quality Enhancement for Households”, Senior Thesis, UNB, May 2005. • [4] AP Sakis Meliopoulos, Power System Grounding and Transients An Introduction • [5] A.M. Sharaf, 1982, "Harmonic interference from distribution systems", IEEE, Trans. PAS, Vol. PAS-101, No. 8, August 1982, pp 2975-2981

  19. References • [6] A.M. Sharaf and Pierre Keidi, “A Modulated Low Cost Power Filter for Single Phase Inrush Transient Loads”, Proceedings of the IEEE Computer Engineering CCECE’04 Conference, May 2-5, 2004, Niagara Falls, ON, Canada. • [7] A.M. Sharaf and P. Kreidi, “Power Quality Enhancement and Harmonic Compensation Scheme for Asymmetrical Nonlinear Loads”, Proceedings of the EPE-PEMC 2002 Conference, Dubrovnik and Cavtat, September 9-11, 2002 • [8] A.M. Sharaf and Pierre Kreidi, “Power Quality Enhancement Using a Unified Compensator and Switched Filter”, International Conference on Renewable Energy and Power Quality ICREPQ 2003, Vigo, Spain, April 9-11,

  20. Authors Prof Dr A.M. Sharaf Electrical Engineering Department University of New Brunswick Roshan Chhetri (Bhutan) MScE Electrical Engineering Department University of New Brunswick

  21. QUESTIONS? ?

  22. THANKS

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