Efficient Simulation of Temperature Evolution of Overhead Transmission Lines Based on Analytical Solution and NWP

Yao, Rui; Sun, Kai; Liu, Feng.; Mei, Shengwei

doi:10.1109/TPWRD.2017.2751563

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Efficient Simulation of Temperature Evolution of Overhead Transmission Lines Based on Analytical Solution and NWP

Author(s): Rui Yao , Kai Sun , Feng Liu , Shengwei Mei

Publication date (Print): August 2018

Journal: IEEE Transactions on Power Delivery

Publisher: Institute of Electrical and Electronics Engineers (IEEE)

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The quiet revolution of numerical weather prediction.

Peter Bauer, Alan Thorpe, Gilbert Brunet (2015)

Advances in numerical weather prediction represent a quiet revolution because they have resulted from a steady accumulation of scientific knowledge and technological advances over many years that, with only a few exceptions, have not been associated with the aura of fundamental physics breakthroughs. Nonetheless, the impact of numerical weather prediction is among the greatest of any area of physical science. As a computational problem, global weather prediction is comparable to the simulation of the human brain and of the evolution of the early Universe, and it is performed every day at major operational centres across the world.