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System for ampacity monitoring and low sag overhead conductor evaluation
(IEEE, 2012)
Among the different alternatives to achieve the uprating and better use of existing overhead power lines are the use of high temperature low sag conductors and the use of real time monitoring systems for knowing the ampacity ...
Overhead conductor monitoring system for the evaluation of the low sag behavior
(IEEE, 2011-06)
The paper describes a monitoring system for the evaluation of the low sag behavior of the overhead conductors in operating lines. The monitoring system measures the conductor tension and temperature and it also measures ...
Monitoring the Tension and the Temperature in an Overhead Line
(IEEE, 2012-03)
The paper describes a monitoring system for the evaluation of the low sag behavior of the overhead conductors. The monitoring system measures the conductor tension and temperature. This system includes a methodology for ...
Optimal location of distributed generation to reduce power losses
(IEEE, 2023-09-13)
The efficient integration of distributed electricity generation from renewable resources requires innovation in the grid. It is necessary to develop methodologies for the planning, management and operation of the distribution ...
Improvement of safety operating conditions in overhead conductors based on ampacity modeling using artificial neural networks
(IEEE, 2020-02-13)
Thermal ratings are usually considered for planning the operating conditions for overhead lines and are usually obtained with static parameters. These conditions can be improved using dynamic ratings based on the region ...
Benefits of Dynamic Line Rating on System Operation
(IEEE, 2021-11-30)
This paper explores the benefits that ampacity dynamic line ratings (DLR) can offer to obtain a higher penetration of wind power generation in the grid. This paper presents an analysis of real examples where monitoring ...