Reliability of multi-purpose offshore-facilities: Present status and future direction in Australia

Autor: Nagi Abdussamie, Al Amin Baksh, Allan Ross Magee, Roquzbeh Abbassi, Jonathan Abrahams, Mark Underwood, Mohsen Asadnia, Chien Ming Wang, Ang Kok Keng, Hassan Karampour, Fatemeh Salehi, Denham G. Cook, Chris Shearer, Scott Draper, Lim Kian Yew, Vikram Garaniya, Irene Penesis, Andrew Martini, Vahid Aryai, Kevin Heasman, Suba Sivandran
Jazyk: angličtina
Rok vydání: 2020
Předmět:
EMA
Experimental Modal Analysis

NOAA
USA National Oceanic and Atmospheric Administration

PE
Polyethylene

Computer science
FOWT
Floating offshore wind turbine

Blue economy
General Chemical Engineering
AUV
Autonomous underwater vehicles

0211 other engineering and technologies
02 engineering and technology
HDPE
High-Density Polyethylene

010501 environmental sciences
FORM
First Order Reliability Method

MPOP
Multi-Purpose Offshore-Platforms

SHM
Structural health monitoring

01 natural sciences
Vertical integration
CSRV
Common source random variables

GIS
Geographic information system

LS
Line Sampling

MEMS
Microelectromechanical systems

OREDA
Offshore and Onshore Reliability Data database

WEC
Wave energy converter

PVC
Polyvinyl Chloride

QRS
Quantum Resistive Sensors

Ocean multi-use
SAFER
EGRA
Efficient Global Reliability Analysis

Safety
Risk
Reliability and Quality

Reliability (statistics)
NARMAX
Non-linear Auto-Regressive Moving Average with exogenous inputs model

RSM
Response Surface Method

MOB
Mobile offshore base

ROV
Remotely operated vehicles

PET
Polyethylene terephthalate

FDD
Frequency Domain Decomposition

SCADA
Supervisory Control and Data Acquisition

Renewable energy
WSE
Wave Swell Energy

VLFS
Very large floating structure

OWT
Offshore wind turbine

Risk analysis (engineering)
PES
Polyurethane polyester

CBM
Condition-based monitoring

MCS
Monte Carlo Simulation

SS
Subset Simulation

FMEA
Failure Mode and Effects Analysis

GI
Galvanised iron

IS
Importance Sampling

MFS
Modular floating structures

Environmental Engineering
SES
Dragon and Seaweed Energy Solutions

O&M
Operations and management

SWAN
Simulating Waves Nearshore

Article
FBG
Fibre Bragg Grating

FLNG
Floating Liquefied Natural Gas

FPSO
Floating structures for production
storage and offloading

LH
Latin Hypercube

OMA
Operational Modal Analysis

SORM
Second-Order Reliability Method

Environmental Chemistry
FE
Finite element

0105 earth and related environmental sciences
021110 strategic
defence & security studies

Government
Data collection
AK-
Active Learning

business.industry
AI
Artificial intelligence

PP
Polypropylene

PSP
Pneumatically Stabilized Platform

MCS
Reliability Method with integrated Kriging and MCS

RAMS
Reliability
Availability
Maintainability
and Safety

ARENA
Australian Renewable Energy Agency

NWW3
NOAA Wave Watch III

Structural integrity
Offshore geotechnical engineering
Sustainability
CSIRO
Commonwealth Scientific and Industrial Research Organisation

business
Reliability analysis
Offshore platforms
Zdroj: Process Safety and Environmental Protection
ISSN: 1744-3598
0957-5820
Popis: Sustainable use of the ocean for food and energy production is an emerging area of research in different countries around the world. This goal is pursued by the Australian aquaculture, offshore engineering and renewable energy industries, research organisations and the government through the “Blue Economy Cooperative Research Centre”. To address the challenges of offshore food and energy production, leveraging the benefits of co-location, vertical integration, infrastructure and shared services, will be enabled through the development of novel Multi-Purpose Offshore-Platforms (MPOP). The structural integrity of the designed systems when being deployed in the harsh offshore environment is one of the main challenges in developing the MPOPs. Employing structural reliability analysis methods for assessing the structural safety of the novel aquaculture-MPOPs comes with different limitations. This review aims at shedding light on these limitations and discusses the current status and future directions for structural reliability analysis of a novel aquaculture-MPOP considering Australia’s unique environment. To achieve this aim, challenges which exist at different stages of reliability assessment, from data collection and uncertainty quantification to load and structural modelling and reliability analysis implementation, are discussed. Furthermore, several solutions to these challenges are proposed based on the existing knowledge in other sectors, and particularly from the offshore oil and gas industry. Based on the identified gaps in the review process, potential areas for future research are introduced to enable a safer and more reliable operation of the MPOPs.
Databáze: OpenAIRE