A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Exploiting EAMS, GIS and Dispatching Systems Data for Criticality Analysis
Improving Maintenance and Felling and Pruning Management in Power Lines
Abstract This Chapter deals with the process of criticality analysis in overhead power lines, as a tool to improve maintenance, felling and pruning programs management. Felling and pruning activities are tasks that utility companies must accomplish to respect the servitudes of the overhead lines, concerned with distances to vegetation, buildings, infrastructures and other networks crossings. Conceptually, these power lines servitudes can be considered as failure modes of the maintainable items under our analysis (power line spans), and the criticality analysis methodology developed, will therefore help to optimize actions to avoid these as other failure modes of the line maintainable items. The approach is interesting, but another relevant contribution of the Chapter is the process followed for the automation of the analysis. Automation is possible by utilizing existing companies IT systems and databases. The Chapter explains how to use data located in Enterprise Asset management Systems, GIS and Dispatching systems for a fast, reliable, objective and dynamic criticality analysis. Promising results are included and also discussions about how this technique may result in important implications for this type of businesses.
Exploiting EAMS, GIS and Dispatching Systems Data for Criticality Analysis
Improving Maintenance and Felling and Pruning Management in Power Lines
Abstract This Chapter deals with the process of criticality analysis in overhead power lines, as a tool to improve maintenance, felling and pruning programs management. Felling and pruning activities are tasks that utility companies must accomplish to respect the servitudes of the overhead lines, concerned with distances to vegetation, buildings, infrastructures and other networks crossings. Conceptually, these power lines servitudes can be considered as failure modes of the maintainable items under our analysis (power line spans), and the criticality analysis methodology developed, will therefore help to optimize actions to avoid these as other failure modes of the line maintainable items. The approach is interesting, but another relevant contribution of the Chapter is the process followed for the automation of the analysis. Automation is possible by utilizing existing companies IT systems and databases. The Chapter explains how to use data located in Enterprise Asset management Systems, GIS and Dispatching systems for a fast, reliable, objective and dynamic criticality analysis. Promising results are included and also discussions about how this technique may result in important implications for this type of businesses.
Exploiting EAMS, GIS and Dispatching Systems Data for Criticality Analysis
Improving Maintenance and Felling and Pruning Management in Power Lines
Crespo Márquez, Adolfo (author) / Rosique, Antonio Sola (author) / Moreu de León, Pedro (author) / Gómez Fernández, Juan F. (author) / Diego, Antonio González (author) / Fernández, Eduardo Candón (author)
2019-06-30
23 pages
Article/Chapter (Book)
Electronic Resource
English
Criticality analysis , Asset and maintenance management , Felling and pruning management in power lines , Life cycle management and sustainability , Decision support systems , Risk management Engineering , Quality Control, Reliability, Safety and Risk , Production , Computer-Aided Engineering (CAD, CAE) and Design , Manufacturing, Machines, Tools, Processes , Engineering Economics, Organization, Logistics, Marketing
Ballistic performance of UHMWPE fabrics/EAMS hybrid panel
| British Library Online Contents | 2018
| BASE | 2020
Central Dispatching for Distribution Systems
| Wiley | 1955
Water supply dispatching system and water supply dispatching method
| European Patent Office | 2023