A SRM Applied in Wind Generation at Smart Grids Employing Wireless Power Control

Author

Casella, I.R.S. ; Sguarezi Filho, A.J. ; Capovilla, C.E. ; Barros, T.A.S. ; Ruppert, E.

Author_Institution

Univ. Fed. do ABC, Santo Andre, Brazil

Volume

13

Issue

7

fYear

2015

fDate

7/1/2015 12:00:00 AM

Firstpage

2048

Lastpage

2056

Abstract

The wind energy generation is the huge driver behind the push for supergrids and cross-border infrastructure for renewable energy systems into smart grids. To provide balance supply, demand, and storage of energy over a region in a much more efficient manner than it is done today, smart grids will need to use an advanced communication infrastructure into a robust control system. Towards this objective, it is proposed in this work a wireless coded power control employing low density parity check coding for a switched reluctance machine applied in wind generation to improve system robustness and reliability. The performance improvements of the proposed system are investigated in a more realistic frequency selective fading propagation condition.

Keywords

frequency selective surfaces; parity check codes; power control; power generation control; power generation reliability; reluctance machines; robust control; smart power grids; wind power; wind power plants; SRM; advanced communication infrastructure; frequency selective fading propagation condition; low density parity check coding; reliability improvement; renewable energy system; robust control system; robustness improvement; smart grid; supergrid; switched reluctance machine; wind energy generation; wireless coded power control; Irrigation; Monitoring; Niobium; Parity check codes; Process control; Reluctance machines; Robustness; LDPC; SRG; direct power control; wind energy; wireless communications;

fLanguage

English

Journal_Title

Latin America Transactions, IEEE (Revista IEEE America Latina)

Publisher

ieee

ISSN

1548-0992

Type

jour

DOI

10.1109/TLA.2015.7273757

Filename

7273757