Risk Assessment Models in Hydroelectric Plants

D. Cerotti; Daniele CODETTA RAITERI; MARZIO ALFIO PENNISI; Lavinia EGIDI; Giuliana Annamaria FRANCESCHINIS; A. Bobbio; Luigi PORTINALE; M. Cappicciola; E. M. L’Aurora; N. Silicato

doi:10.1007/978-3-032-16345-5_2

Risk Assessment Models in Hydroelectric Plants

D. Cerotti
, Daniele CODETTA RAITERI
, MARZIO ALFIO PENNISI
, Lavinia EGIDI
, Giuliana Annamaria FRANCESCHINIS
, A. Bobbio
, Luigi PORTINALE
, M. Cappicciola
, E. M. L’Aurora
, N. Silicato

Department of Science and Technological Innovation

Research output: Contribution to conference › Paper › peer-review

Abstract

Recently, renewable energy including hydroelectric power, is gain-ing relevance. Hydropower plant operation is influenced by many factors, sorisk assessment becomes a key process to schedule maintenance and guaran-tee the production of the necessary amount of energy. We define a method-ology for risk analysis considering failure processes and repair actions, andbased on the definition of component and subsystem hierarchy, interdepen-dencies, failure and repair parameters. Hierarchy higher levels are modelledby Fault Trees, while lower levels are modelled by a direct dependency graph.Component Health Status (CHS©) is a wear index evaluated by experts, fromwhich failure and repair distributions are derived through a fitting procedure.Producibility levels and risk matrix are the output of our methodology, whichis applied, as a case study, to a simplified hydropower plant.

Original language	English
Pages	17-28
Number of pages	12
DOIs	https://doi.org/10.1007/978-3-032-16345-5_2
Publication status	Published - 2025
Event	European Performance Engineering Workshop (EPEW) - Catania, Italia Duration: 1 Jan 2025 → …

Conference

Conference	European Performance Engineering Workshop (EPEW)
City	Catania, Italia
Period	1/01/25 → …

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

component health status.
direct dependency graph
failure
fault tree
hydropower plant
maintenance
repair
risk analysis

Access to Document

10.1007/978-3-032-16345-5_2

https://hdl.handle.net/11579/221044

Cite this

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title = "Risk Assessment Models in Hydroelectric Plants",

abstract = "Recently, renewable energy including hydroelectric power, is gain-ing relevance. Hydropower plant operation is influenced by many factors, sorisk assessment becomes a key process to schedule maintenance and guaran-tee the production of the necessary amount of energy. We define a method-ology for risk analysis considering failure processes and repair actions, andbased on the definition of component and subsystem hierarchy, interdepen-dencies, failure and repair parameters. Hierarchy higher levels are modelledby Fault Trees, while lower levels are modelled by a direct dependency graph.Component Health Status (CHS{\textcopyright}) is a wear index evaluated by experts, fromwhich failure and repair distributions are derived through a fitting procedure.Producibility levels and risk matrix are the output of our methodology, whichis applied, as a case study, to a simplified hydropower plant.",

keywords = "component health status., direct dependency graph, failure, fault tree, hydropower plant, maintenance, repair, risk analysis, component health status., direct dependency graph, failure, fault tree, hydropower plant, maintenance, repair, risk analysis",

author = "D. Cerotti and \{CODETTA RAITERI\}, Daniele and PENNISI, \{MARZIO ALFIO\} and Lavinia EGIDI and FRANCESCHINIS, \{Giuliana Annamaria\} and A. Bobbio and Luigi PORTINALE and M. Cappicciola and L{\textquoteright}Aurora, \{E. M.\} and N. Silicato",

year = "2025",

doi = "10.1007/978-3-032-16345-5\_2",

language = "English",

pages = "17--28",

note = "European Performance Engineering Workshop (EPEW) ; Conference date: 01-01-2025",

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T1 - Risk Assessment Models in Hydroelectric Plants

AU - Cerotti, D.

AU - CODETTA RAITERI, Daniele

AU - PENNISI, MARZIO ALFIO

AU - EGIDI, Lavinia

AU - FRANCESCHINIS, Giuliana Annamaria

AU - Bobbio, A.

AU - PORTINALE, Luigi

AU - Cappicciola, M.

AU - L’Aurora, E. M.

AU - Silicato, N.

PY - 2025

Y1 - 2025

N2 - Recently, renewable energy including hydroelectric power, is gain-ing relevance. Hydropower plant operation is influenced by many factors, sorisk assessment becomes a key process to schedule maintenance and guaran-tee the production of the necessary amount of energy. We define a method-ology for risk analysis considering failure processes and repair actions, andbased on the definition of component and subsystem hierarchy, interdepen-dencies, failure and repair parameters. Hierarchy higher levels are modelledby Fault Trees, while lower levels are modelled by a direct dependency graph.Component Health Status (CHS©) is a wear index evaluated by experts, fromwhich failure and repair distributions are derived through a fitting procedure.Producibility levels and risk matrix are the output of our methodology, whichis applied, as a case study, to a simplified hydropower plant.

AB - Recently, renewable energy including hydroelectric power, is gain-ing relevance. Hydropower plant operation is influenced by many factors, sorisk assessment becomes a key process to schedule maintenance and guaran-tee the production of the necessary amount of energy. We define a method-ology for risk analysis considering failure processes and repair actions, andbased on the definition of component and subsystem hierarchy, interdepen-dencies, failure and repair parameters. Hierarchy higher levels are modelledby Fault Trees, while lower levels are modelled by a direct dependency graph.Component Health Status (CHS©) is a wear index evaluated by experts, fromwhich failure and repair distributions are derived through a fitting procedure.Producibility levels and risk matrix are the output of our methodology, whichis applied, as a case study, to a simplified hydropower plant.

KW - component health status.

KW - direct dependency graph

KW - failure

KW - fault tree

KW - hydropower plant

KW - maintenance

KW - repair

KW - risk analysis

KW - component health status.

KW - direct dependency graph

KW - failure

KW - fault tree

KW - hydropower plant

KW - maintenance

KW - repair

KW - risk analysis

UR - https://iris.uniupo.it/handle/11579/221044

U2 - 10.1007/978-3-032-16345-5_2

DO - 10.1007/978-3-032-16345-5_2

M3 - Paper

SP - 17

EP - 28

T2 - European Performance Engineering Workshop (EPEW)

Y2 - 1 January 2025

ER -

Risk Assessment Models in Hydroelectric Plants

Abstract

Conference

UN SDGs

Keywords

Access to Document

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