New lightning current arrester design for onshore and offshore wind turbines

Author

Heckler, Holger ; Wosgien, Joachim ; Wetter, Martin

Author_Institution

Bus. Unit Power & Signal Quality, Phoenix Contact, Blomberg, Germany

fYear

2011

fDate

3-7 Oct. 2011

Firstpage

241

Lastpage

246

Abstract

This paper describes the challenging operating conditions of onshore and offshore wind turbines and the requirements for the design of surge-protective devices - which result from these operating conditions. To meet these operating conditions and the requirements derived from standards and guidelines for wind turbines, a new hybrid design of varistor-based and spark-gap-based IEC Class I lightning current arresters had been designed. This paper also describes the design principles and the operational behavior of this new arrester for wind turbines.

Keywords

arresters; lightning protection; varistors; wind turbines; lightning current arrester design; offshore wind turbines; onshore wind turbines; spark-gap-based IEC Class I lightning current arresters; surge-protective devices design; varistor-based IEC Class I lightning current arresters; Discharges; IEC; IEC standards; Lightning; Surge protection; Varistors; Wind turbines; Lightning; gas-discharge tube; lightning current; lightning protection level; monitoring unit; overvoltage; remote contact; repetitive transients; surge protection; surge-protection device; surge-protective device; varistor; vibration; wind turbine;

fLanguage

English

Publisher

ieee

Conference_Titel

Lightning Protection (XI SIPDA), 2011 International Symposium on

Conference_Location

Fortaleza

Print_ISBN

978-1-4577-1898-4

Type

conf

DOI

10.1109/SIPDA.2011.6088447

Filename

6088447