ZSC
description
Transcript of ZSC
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A PAPER PRESENTATION
ONIMPEDANCE SOURCE CONVERTER BASED WIND ENERGY SYSTEMS
By
Althaf hussaisn Shaik(K L university)
Nadendla Srikanth(K L University)
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THEME
• To improve the utilization of wind energy system using efficient generator and suitable converter.
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OBJECTIVES
The different generators used in wind energy system.
Why a PE converter needed in wind energy system.
How the z source converter different from other converters.
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WIND ENERGY CONVERSION SYSTEM
Fig: Block diagram
• Fixed speed wind turbines
• Partially Variable speed wind turbines
• Fully Variable speed wind turbines
ElectricalGenerator
Wind turbin
e
Power electronic interface
Gird
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VARIABLE SPEED WIND ENERGY CONVERSION SYSTEM
DFIG Transformer
Wind gear
external
box grid
partial-rating power converter
Fig: variable speed wind energy conversion system
G
DCAC
AC
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FULLY VARIABLE WIND ENERGY CONVERSION SYSTEM
AC-DC converter
DC-AC converter
DCAC
GridGearbox
Syn generatorDC-Link
Fig: Fully-variable system 5
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WHY DFIG ?
• DFIG provides more operating range compared to other
• It provides -40% to +30% speed range.
• The power flows in both rotor and stator
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WHY A P.E CONVERTER IS NEEDED IN WIND ENERGY CONVERSION ?
• The wind flows may not be fully controlled and can cause variances in the frequency at which the power is generated.
• Power electronic devices are utilized in these systems to convert the generated ac voltages into HVDC.
• Through these devices, the power delivered by these
systems is cleaner and has a higher P.F .
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COMPARISON OF WIND ENERGY CONVERSION SYSTEMS
Sno: WEC Based on Generator
Grid integration
1 Fixed speed System
Induction generator
Direct
2Partially
variableSystem
DFIG VSC
3 Fully-variable system
Induction or synchronous VSC or ZSC
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WIND ENERGY CONVERSION SYSTEM
Fig: fully variable system
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BOOST CONVERTER + INVERTER
Fig: WEC system with boost converter and inverter 10
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Z-SOURCE INVERTER
Fig: WEC system with Z-source converter 11
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SINGLE PHASE ZSC
v
z s a s t
z s a s
Fig: single phase z-source converter 12
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ACTIVE STATE
Fig: Active state 13
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SHOOT THROUGH STATE
Fig: Shoot through state 14
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SWITCHING SEQUENCE
S.no S1 S2
S3
S4
STATE
1 1 1 0 0 Zero
2 1 1 0 1 Shoot through
3 1 0 1 0 Active
4 1 1 1 0 Shoot through
5 0 0 1 1 Zero
6 0 1 1 1 Shoot through
7 0 1 1 0 Active
8 1 0 1 1 Shoot through 15
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Fig: MATLAB simulation 16
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RESULTS
Fig: Active and shoot through states 17
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ZSI SHOOT THROUGH STAGE
Fig: shoot through state 18
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CONCLUSION:• By using both DFIG and ZSI in wind energy
systems we can get more efficiency and control over the active and reactive powers. The proposed system has high performance, minimal count, increased efficiency and reduced cost.
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Any queries ???
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Thank You
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