Gubeljak et al., 2016 - Google Patents
Preventing transmission line damage caused by ice with smart on-line conductor monitoringGubeljak et al., 2016
View PDF- Document ID
- 10322086770206797688
- Author
- Gubeljak N
- Banić B
- Lovrenčić V
- Kovač M
- Nikolovski S
- Publication year
- Publication venue
- 2016 international conference on smart systems and technologies (SST)
External Links
Snippet
OTLM (Overhead Transmission Line Monitoring) is a system solution for monitoring and rating of existing and new overhead lines (OHL) based on real-time monitoring of conductor temperature, sag, load, and weather conditions in order to ensure save maximum utilization …
- 239000004020 conductor 0 title abstract description 136
Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G7/00—Overhead installations of electric lines or cables
- H02G7/16—Devices for removing snow or ice from lines or cables
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Gubeljak et al. | Preventing transmission line damage caused by ice with smart on-line conductor monitoring | |
| Douglass et al. | Real-time overhead transmission-line monitoring for dynamic rating | |
| JP2024150490A (en) | System and method for power line monitoring | |
| Olsen et al. | A new method for real-time monitoring of high-voltage transmission-line conductor sag | |
| US20130066600A1 (en) | Method and apparatus for real-time line rating of a transmission line | |
| Uski-Joutsenvuo et al. | Maximising power line transmission capability by employing dynamic line ratings–technical survey and applicability in Finland | |
| Kosec et al. | Dynamic thermal rating of power lines–model and measurements in rainy conditions | |
| Sidea et al. | Weather-based assessment of the overhead line conductors thermal state | |
| Babs | Weather-based and conductor state measurement methods applied for dynamic line rating forecasting | |
| Ruszczak et al. | Extreme value analysis of wet snow loads on power lines | |
| Carlini et al. | Uprating an overhead line. Italian TSO applications for integration of RES | |
| Carlini et al. | Methodologies to uprate an overhead line. Italian TSO case study | |
| Chen et al. | High-temperature ampacity model for overhead conductors | |
| CN107196277B (en) | The active heat protection method of transmission line of electricity based on the prediction of electric current tolerance time | |
| Spoor et al. | Development and experimental validation of a weather-based dynamic line rating system | |
| Lacavalla et al. | Forecasting and monitoring wet-snow sleeve on overhead power lines in Italy | |
| Troppauer et al. | Advanced monitoring of icing and prevention against icing on overhead power lines | |
| Fernandez et al. | Dynamic line rating systems for wind power integration | |
| Sollerkvist et al. | Evaluation, verification and operational supervision of corona losses in Sweden | |
| Petrenko et al. | Variable-resistance conductors (VRC) for power-line de-icing | |
| Alvarez et al. | Validation of a thermal model for overhead transmission lines at high conductor temperature | |
| Prasetyo et al. | Analysis of Knee Point Temperature (KPT) determination on High Capacity Low Sag (HCLS) conductors for optimizing the ampacity load and sag on the overhead transmission lines system | |
| Zhang et al. | Optimal Anti-Icing and De-Icing Coordination Scheme for Resilience Enhancement in Distribution Networks Against Ice Storms | |
| Rácz et al. | Integration of Monte Carlo methods into ice prevention model | |
| Zafran et al. | A case study on alleviating electric transmission congestion using dynamic thermal rating methodology |