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Power Quality Problems and Solutions

S
Siksha 'O' Anusandhan (Deemed to be University )

These slides present an introduction to power quality issues and its possible remedial measures in smart micro-grid systems.

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INTRODUCTION OF POWER QUALITY 01 TRANSIENTS IN POWER SUPPLY, VOLTAGE INTERRUPTION 02 HARMONIC DISTORTION 03 POWER QUALITY SOLUTIONS 04 RELATED QUESTIONS AND DISCUSSION 05 2
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A survey conducted by the Georgia Power Company in which both the utility personnel and customers were polled out about what causes power quality problems. Both have their own vantage points ! 5
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Effects of Current on Power Quality 7 Power = Voltage X Current Hence it would be difficult to define the quality of this quantity in any meaningful manner • Utility has only control the voltage, and Current is regulated through load • Therefore the standards of power quality is maintained by regulating the voltage parameters only
The increasing application of electronic equipment and distributed generation has heightened the interest in power quality in recent years This has caused a considerable amount of confusion as both vendors and end users have struggled to understand why electrical equipment is not working as expected For example, surge is used to describe a wide variety of disturbances that cause equipment failures or mis operation. A surge suppressor can suppress some of these but will have absolutely no effect on others. Unscrupulous marketers take advantage of the ignorance of the general public, selling overpriced gadgets with near miraculous claims for improving the power quality 8 If They won’t tell you what is in the box and how it works, don’t buy it !
9 Power quality standards must provide guidelines, recommendations, and limits to help assure compatibility between end use equipment and the system where it is applied
10 The international standards development organization is the IEC. The IEC has defined a category of standards called Electromagnetic Compatibility (EMC) Standards that deal with power quality issues. They fall into the following six categories:
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1212 • Another word in common usage that is often considered synonymous with transient is surge. • A utility engineer may think of a surge as the transient resulting from a lightning stroke for which a surge arrester is used for protection. • End users frequently use the word in discriminately to describe anything unusual that might be observed on the power supply ranging from sags to swells to interruptions.
13 Lightning stroke current transient
14 Caused by back to back capacitor switching Caused by capacitor bank energization
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17 Momentary interruption due to fault and subsequent reclosing operation
18 Figure. Voltage sag caused by an SLG fault (a) RMS waveform for voltage sag event (b) Voltage sag wave form
19 Instantaneous Voltage swell caused by SLG
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PQ Improvement Unidirectional Converter Buck Converter Boost Converter Buck-Boost Converter Multilevel Converter Bidirectional Converter Buck Converter Boost Converter Buck-Boost Converter Multilevel Converter 28
29 Fig.1 Fig.2
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31 Fig.4Fig.3
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33 Fig.6Fig.5
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35 Fig.8Fig.7
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1. This is the most popular UPQC system configuration to compensate the power quality problems in single- phase two wire (1P2W) supply system consisting of two H-bridge inverters (total eight semiconductor switches). 2. A CSI-based topology can also be realized for 1P2W UPQC. 1. Nasiri and Emadi introduced two additional reduced part configurations for single phase UPQC [40], namely, three-leg single-phase UPQC (total six semiconductor switches) shown in Fig. (b) and half-bridge single-phase UPQC (total four semiconductor switches shown in Fig. (c). 2. These topologies can be considered for low-cost low- power applications. 3. In a three-leg topology, the series inverter consists of switches S1 and S2 (leg one), whereas, switches S3 and S4 are for shunt inverter (leg two). The third leg, switches S5 and S6, is common for both the series and shunt inverters. 4.The half-bridge topology consists of one leg each for shunt and series inverters. 39 (b)(a) (c) (a) (c)(b) (b) (c)
40 1. Several nonlinear loads, such as, adjustable speed drives fed from3P3W,currentregulat or,frequencyconverters,arc welding machines, and arc furnace, impose combinations of previously listed power quality problems. 2. A 3P3W VSI-based UPQC is depicted in Fig. d. 1. Apart from the three- phase loads, many industrial plants often consist of combined loads, such as, a variety of single-phase loads and three-phase loads, supplied by 3P4W source. The presence of fourth wire, the neutral conductor, causes an excessive neutral current flow and, thus, demands additional compensation 2. To mitigate the neutral current in 3P4W system, various shunt inverter configurations have been attempted, namely, two split capacitor (2C), four- leg and three H-bridge (3HB). 3. The related figures are presented in Fig. (e) and Fig. (f). 40 (d) (e) (f) (d) (e) (f) (e) (f)
41 1. Right and Left Shunt UPQC (UPQC-R ( as indicated in UPQC architecture section ) and UPQC-L (as indicated in Fig.(g))) 2. The shunt inverter can be located either on the right (thus the name right shunt UPQC (UPQC-R)) or left (hence the name left shunt UPQC(UPQC-L)) side of the series inverter. 3. In UPQC-R, the current(s) that flow through series transformer is(are) mostly sinusoidal irrespective to the nature of load current on the system (provided that the shunt inverter compensate current harmonics, reactive current, unbalance, etc., effectively). Thus, UPQC-R gives a better overall UPQC performance compare to UPQC-L. 1. Fig. (h) depicts an interesting UPQC system configuration, suggested by in daletal., where the two inverters of the UPQC are connected between two distribution feeders named as interline UPQC (UPQC- I). 2. Another converter is used to fed the dc-bus through an extra converter as indicated in Fig. (i) . The name of the strategy is UPQC-MC 41 (g) (h) (i) (g) (h) (i)(g)
Names Explanation UPQC-D 3P3W and 3P4W distributed UPQC UPQC-DG Distributed Generator integrated with UPQC UPQC-I Interline UPQC UPQC-L Left Shunt UPQC UPQC-MC Multi converter UPQC UPQC-MD Modular UPQC UPQC-ML Multi-level UPQC UPQC-P UPQC mitigates sags by regulating active power UPQC-Q UPQC mitigates sags by regulating reactive power UPQC-R Right shunt UPQC UPQC-S UPQC mitigates sags by regulating both active and reactive power 42
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Power Quality Problems and Solutions

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Power Quality Problems and Solutions

  • 1.
  • 2. INTRODUCTION OF POWER QUALITY 01 TRANSIENTS IN POWER SUPPLY, VOLTAGE INTERRUPTION 02 HARMONIC DISTORTION 03 POWER QUALITY SOLUTIONS 04 RELATED QUESTIONS AND DISCUSSION 05 2
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  • 5. A survey conducted by the Georgia Power Company in which both the utility personnel and customers were polled out about what causes power quality problems. Both have their own vantage points ! 5
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  • 7. Effects of Current on Power Quality 7 Power = Voltage X Current Hence it would be difficult to define the quality of this quantity in any meaningful manner • Utility has only control the voltage, and Current is regulated through load • Therefore the standards of power quality is maintained by regulating the voltage parameters only
  • 8. The increasing application of electronic equipment and distributed generation has heightened the interest in power quality in recent years This has caused a considerable amount of confusion as both vendors and end users have struggled to understand why electrical equipment is not working as expected For example, surge is used to describe a wide variety of disturbances that cause equipment failures or mis operation. A surge suppressor can suppress some of these but will have absolutely no effect on others. Unscrupulous marketers take advantage of the ignorance of the general public, selling overpriced gadgets with near miraculous claims for improving the power quality 8 If They won’t tell you what is in the box and how it works, don’t buy it !
  • 9. 9 Power quality standards must provide guidelines, recommendations, and limits to help assure compatibility between end use equipment and the system where it is applied
  • 10. 10 The international standards development organization is the IEC. The IEC has defined a category of standards called Electromagnetic Compatibility (EMC) Standards that deal with power quality issues. They fall into the following six categories:
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  • 12. 1212 • Another word in common usage that is often considered synonymous with transient is surge. • A utility engineer may think of a surge as the transient resulting from a lightning stroke for which a surge arrester is used for protection. • End users frequently use the word in discriminately to describe anything unusual that might be observed on the power supply ranging from sags to swells to interruptions.
  • 14. 14 Caused by back to back capacitor switching Caused by capacitor bank energization
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  • 17. 17 Momentary interruption due to fault and subsequent reclosing operation
  • 18. 18 Figure. Voltage sag caused by an SLG fault (a) RMS waveform for voltage sag event (b) Voltage sag wave form
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  • 39. 1. This is the most popular UPQC system configuration to compensate the power quality problems in single- phase two wire (1P2W) supply system consisting of two H-bridge inverters (total eight semiconductor switches). 2. A CSI-based topology can also be realized for 1P2W UPQC. 1. Nasiri and Emadi introduced two additional reduced part configurations for single phase UPQC [40], namely, three-leg single-phase UPQC (total six semiconductor switches) shown in Fig. (b) and half-bridge single-phase UPQC (total four semiconductor switches shown in Fig. (c). 2. These topologies can be considered for low-cost low- power applications. 3. In a three-leg topology, the series inverter consists of switches S1 and S2 (leg one), whereas, switches S3 and S4 are for shunt inverter (leg two). The third leg, switches S5 and S6, is common for both the series and shunt inverters. 4.The half-bridge topology consists of one leg each for shunt and series inverters. 39 (b)(a) (c) (a) (c)(b) (b) (c)
  • 40. 40 1. Several nonlinear loads, such as, adjustable speed drives fed from3P3W,currentregulat or,frequencyconverters,arc welding machines, and arc furnace, impose combinations of previously listed power quality problems. 2. A 3P3W VSI-based UPQC is depicted in Fig. d. 1. Apart from the three- phase loads, many industrial plants often consist of combined loads, such as, a variety of single-phase loads and three-phase loads, supplied by 3P4W source. The presence of fourth wire, the neutral conductor, causes an excessive neutral current flow and, thus, demands additional compensation 2. To mitigate the neutral current in 3P4W system, various shunt inverter configurations have been attempted, namely, two split capacitor (2C), four- leg and three H-bridge (3HB). 3. The related figures are presented in Fig. (e) and Fig. (f). 40 (d) (e) (f) (d) (e) (f) (e) (f)
  • 41. 41 1. Right and Left Shunt UPQC (UPQC-R ( as indicated in UPQC architecture section ) and UPQC-L (as indicated in Fig.(g))) 2. The shunt inverter can be located either on the right (thus the name right shunt UPQC (UPQC-R)) or left (hence the name left shunt UPQC(UPQC-L)) side of the series inverter. 3. In UPQC-R, the current(s) that flow through series transformer is(are) mostly sinusoidal irrespective to the nature of load current on the system (provided that the shunt inverter compensate current harmonics, reactive current, unbalance, etc., effectively). Thus, UPQC-R gives a better overall UPQC performance compare to UPQC-L. 1. Fig. (h) depicts an interesting UPQC system configuration, suggested by in daletal., where the two inverters of the UPQC are connected between two distribution feeders named as interline UPQC (UPQC- I). 2. Another converter is used to fed the dc-bus through an extra converter as indicated in Fig. (i) . The name of the strategy is UPQC-MC 41 (g) (h) (i) (g) (h) (i)(g)
  • 42. Names Explanation UPQC-D 3P3W and 3P4W distributed UPQC UPQC-DG Distributed Generator integrated with UPQC UPQC-I Interline UPQC UPQC-L Left Shunt UPQC UPQC-MC Multi converter UPQC UPQC-MD Modular UPQC UPQC-ML Multi-level UPQC UPQC-P UPQC mitigates sags by regulating active power UPQC-Q UPQC mitigates sags by regulating reactive power UPQC-R Right shunt UPQC UPQC-S UPQC mitigates sags by regulating both active and reactive power 42
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