Abstract:A novel methodology for life estimation and performance evaluation of offshore wind farms high voltage AC export cables is presented. The method applies Dynamic Temperature Prediction (DTP) analysis using a Thermo-Electrical Equivalent model (TEE). Furthermore, it is suggested how the cable lifetime might be inferred based on the accumulated ageing effects. Afterwards, a sensitivity analysis of the seabed temperature variations is performed. Finally, a holistic procedure for calculating more accurately the ele… Show more
“…However, in this paper, at the first stage, we restrict our study to the subsea section excluding both the landfall section and the junctions. It may be noted that, in HVAC export cables, the conductor temperature usually represents the limiting factor for the transfer capacity rather than other constraints such as voltage swing or surge impedance [77].…”
Section: Dynamic Thermal Rating As a Technology For Better Utilizatio...mentioning
“…However, in this paper, at the first stage, we restrict our study to the subsea section excluding both the landfall section and the junctions. It may be noted that, in HVAC export cables, the conductor temperature usually represents the limiting factor for the transfer capacity rather than other constraints such as voltage swing or surge impedance [77].…”
Section: Dynamic Thermal Rating As a Technology For Better Utilizatio...mentioning
“…1) Simulation Setting: Defines the main simulation parameters: i) seabed multilayer definition N (as introduced in [20]), ii) cables lifetime design information: LT des , d des , and F p des , iii) cables catalogue, and iv) geometrical and thermal information of the cables inner layers.…”
Section: A Input Datamentioning
confidence: 99%
“…A Thermo-Electrical Equivalent (TEE) model based on the works [21] and [22] have been developed and calibrated as presented in [20]. The theoretical and practical validation of this model can be found in [16] and [10].…”
Section: Dynamic Temperature Estimationmentioning
confidence: 99%
“…Temperature varies in time resulting in variation of the conductor and other associated losses (screen, armouring, and dielectric). Consequently, the total losses (T L it ) calculation for a cable t is defined in ( 18) [20].…”
Section: F Performance Evaluationmentioning
confidence: 99%
“…The factor (1 + λ 1 + λ 2 ) accounts for the screen and armouring losses, while the constant 3 is for the three-phase system. It is observed that l D T should be between 10 − 20 (depending on cable total length) to achieve a proper computation time-quality balance [20].…”
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