1. Transformation of a three‐phase double‐circuit overhead transmission line into a six‐phase feeder to increase power transfer capability.
- Author
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Shen, Shuhang, Cao, Bin, Crossley, Peter, Wang, Zhongdong, and Ding, Xiaolin
- Subjects
RENEWABLE energy sources ,ELECTRIC lines ,ELECTRIC power distribution grids ,ELECTRIC power consumption ,UNDERGROUND construction ,ENVIRONMENTAL protection planning ,DIGITAL electronics - Abstract
The UK net‐zero target requires the integration of significant renewable energy resources into the electrical grid. This, together with the projected growth in electricity demand imposes practical challenges on the power transfer capability of existing transmission feeders. For environmental and planning reasons, construction of new overhead lines is problematic, and where possible upgrading of existing substations and lines is preferred. This paper investigates the feasibility of transforming an existing three‐phase (3Φ) double‐circuit 400 kV line into a six‐phase (6Φ) feeder for a simulated future GB scenario. Results indicate a 6Φ feeder, operating at a 'phase‐adjacent phase' voltage of 400 kV can effectively solve the constraints of boundaries in transmission networks. When considering the various operating contingencies, associated with an important UK network boundary and its expected near‐future winter‐peak power transfer requirements, the thermal overload issues are mitigated by transforming a feeder from 3Φ to 6Φ. The paper demonstrates upgrading to 6Φ technology is a potential solution to certain future boundary constraints and in these cases avoids the need to build new underground or overhead AC/DC lines. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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