Max Goertz scite author profile

In high-voltage direct current (HVDC) transmission systems comprising overhead line (OHL) sections as well as cable sections, the dc cable system is exposed indirectly to lightning strokes. In case of HVDC cable systems with extruded insulation the present test recommendations do not specify lightning impulse test levels related to rated system voltage. Instead, preliminary electromagnetic transient studies are required to determine the absolute maximum lightning impulse voltage the cable might experience. Within this paper, the general lightning behavior of OHL-cable mixed systems subsequent to the occurrence of a backflashover as well as a shielding failure is investigated for a 525 kV HVDC transmission scheme. This paper presents a modeling method to calculate occurring lightning overvoltages along a dc cable embedded between OHL sections. Based on a detailed parametric study using time-domain simulation, maximum lightning impulse voltages along the cable system are determined, and evaluated with regard to impulse level and polarity. The impact of project related parameter such as cable length, tower design, and tower grounding conditions on lightning overvoltage affecting the cable is demonstrated.

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Active DC fault management of a bipolar full-bridge MMC-HVDC scheme with metallic return

Wenig

Goertz

Suriyah

2016

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Overvoltage characteristics in symmetrical monopolar HB MMC-HVDC configuration comprising long cable systems

Goertz

Wenig²,

Beckler³

et al. 2020

Electric Power Systems Research

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Effects of DC fault clearance methods on transients in a full-bridge monopolar MMC-HVDC link

Wenig

Goertz

Prieto

et al. 2016

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Max Goertz

On Full-Bridge Bipolar MMC-HVDC Control and Protection for Transient Fault and Interaction Studies

Analysis of Extruded HVDC Cable Systems Exposed to Lightning Strokes

Active DC fault management of a bipolar full-bridge MMC-HVDC scheme with metallic return

Overvoltage characteristics in symmetrical monopolar HB MMC-HVDC configuration comprising long cable systems

Effects of DC fault clearance methods on transients in a full-bridge monopolar MMC-HVDC link

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