A BIM-driven framework for integrating rules and regulations in the decommissioning of nuclear power plants

AH Oti; Peter Farrell; F.H. Abanda; Paul H. McMahon; Abdul-Majeed Mahamadu; Dingayo Mzyece; Adeyemi Ayodele Akintola; Nawal Prinja

doi:10.1108/CI-11-2020-0186

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A BIM-driven framework for integrating rules and regulations in the decommissioning of nuclear power plants

Journal article

Open access

Peer reviewed

A BIM-driven framework for integrating rules and regulations in the decommissioning of nuclear power plants

AH Oti, Peter Farrell, F.H. Abanda, Paul H. McMahon, Abdul-Majeed Mahamadu, Dingayo Mzyece, Adeyemi Ayodele Akintola and Nawal Prinja

Construction Innovation: Information, Process, Management, Vol.22(4), pp.809-830

28/11/2022

DOI: https://doi.org/10.1108/CI-11-2020-0186

Abstract

decommissioning

BIM

tasks

regulations

context-focussed

Building Infrastructure

Construction Engineering

Engineering

Nuclear Power Plants

Purpose: The relative low capital cost and contributions to mitigating global warming have favoured the continuous construction and operation of nuclear power plants across the world. One critical phase in the operation of nuclear plants for ensuring safety and security of radioactive products and by-products is decommissioning. With the advent of digital twinning in the building information modelling (BIM) methodology, efficiency and safety can be improved from context-focus access to regulations pertaining demolition of structures, and cleaning-up of radioactivity inherent in nuclear stations. A BIM-driven framework to achieve a more regulation-aware and safer decommissioning of nuclear plants is proposed. Design: The framework considers task requirements, and landscape and environmental factors in modelling demolition scenarios that characterise decommissioning processes. The framework integrates decommissioning rules/regulations in a BIM linked non-structured query system to model items and decommissioning tasks, which are implemented based on context-focused retrieval of decommissioning rules and regulations. The concept’s efficacy is demonstrated using example cases of digitalised nuclear power plants. Findings: This approach contributes to enhancing improvements in nuclear plant decommissioning with potential for appropriate activity sequencing, risk reduction, and ensuring safety. Originality: A BIM-driven framework hinged on querying non-structured databases to provide context-focused access to nuclear rules and regulations, and to aiding decommissioning, is new.

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Title: A BIM-driven framework for integrating rules and regulations in the decommissioning of nuclear power plants
Creators - without role: AH Oti - University of Greater Manchester
Peter Farrell - University of Greater Manchester
F.H. Abanda - Oxford Brookes University
Paul H. McMahon - University of Greater Manchester
Abdul-Majeed Mahamadu
Dingayo Mzyece - Coventry University
Adeyemi Ayodele Akintola - Oxford Brookes University
Nawal Prinja - Jacobs
Publication Details: Construction Innovation: Information, Process, Management, Vol.22(4), pp.809-830
Publisher: Emerald
Format: text
Identifiers: 999435308841; 1471-4175
Copyright: This author accepted manuscript is deposited under a Creative Commons Attribution Non-commercial 4.0 International (CC BY-NC) licence. This means that anyone may distribute, adapt, and build upon the work for non-commercial purposes, subject to full attribution. If you wish to use this manuscript for commercial purposes, please visit Marketplace: https://marketplace.copyright.com/rs-ui-web/mp
Academic Unit: School of Engineering
Language: English
Resource Type: Journal article
Electronic publication date: 22/07/2021
Date accepted: 31/05/2021
Date submitted: 26/11/2020
Comment: Accepted version of paper to be published in Construction Innovation: Information, Process, Management, to be made available under CC BY-NC 4.0 licence on publication.

A BIM-driven framework for integrating rules and regulations in the decommissioning of nuclear power plants

Abstract

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