Complex multi-phase energy infrastructure projects involve numerous stakeholders with diverse and evolving requirements that must be carefully managed to ensure project success. This paper presents a comprehensive framework for systematically mapping stakeholder requirements across multiple project phases, addressing a critical gap in existing methodologies that often treat requirements as static or isolated. The framework emphasizes dynamic stakeholder identification, structured requirement categorization, multi-criteria prioritization, and continuous integration to maintain alignment amid changing project conditions. It incorporates iterative validation and feedback mechanisms to ensure accuracy and foster stakeholder trust throughout the project lifecycle. Additionally, the framework advocates for the use of digital tools and analytical techniques to enhance transparency and decision-making efficiency. By providing a structured yet adaptable approach, this framework supports better coordination, risk mitigation, and resource allocation in complex energy projects. The contributions offer both theoretical insights and practical guidance, facilitating improved stakeholder engagement and project resilience in increasingly complex energy infrastructure environments.
Stakeholder requirement mapping, Multi-phase energy projects, Infrastructure project management, Requirement prioritization, Stakeholder engagement, Project lifecycle integration
IRE Journals:
Ebimor Yinka Gbabo , Odira Kingsley Okenwa , Possible Emeka Chima
"Framework for Mapping Stakeholder Requirements in Complex Multi-Phase Energy Infrastructure Projects" Iconic Research And Engineering Journals Volume 5 Issue 5 2021 Page 496-505
IEEE:
Ebimor Yinka Gbabo , Odira Kingsley Okenwa , Possible Emeka Chima
"Framework for Mapping Stakeholder Requirements in Complex Multi-Phase Energy Infrastructure Projects" Iconic Research And Engineering Journals, 5(5)