Published on April 30, 2026
The power system industry traditionally relies on laboratory and field measurements to validate design elements. In particular, testing of high-voltage transmission line hardware and submarine HVDC cables typically demands physical setups to ensure safety and performance. However, these methods come with space and efficiency constraints that can hinder progress.
Recent advancements in simulation technology have emerged as a game changer. Designers can now accelerate the evaluation of critical components, like corona performance in transmission lines. With simulations, engineers can replicate real-world conditions more accurately, overcoming the limitations posed facilities.
The impact of this shift is particularly significant for high-voltage systems, such as those operating at 500 kV and 765 kV. -phase laboratory mockups into three-phase results through simulation, teams can achieve reliable designs without the usual physical restrictions. Furthermore, simulations have revealed unexpected interactions, such as ocean currents inducing detectable electric fields around HVDC submarine cables, challenging previous assumptions about their environmental safety.
These insights not only enhance design accuracy but also promote cost-saving measures on extensive physical tests. As the industry adapts to these innovative tools, future projects may benefit from faster timelines and improved structural integrity, paving the way for more reliable and sustainable power solutions.
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