Managing Energy Transition - Adapting Power to Gas Technology PTG - Project Management Review of Complexity, Technology and Integration Aspects

Prasannakumar K. Purayil, Sujith Pratap Chandran
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Abstract

Managing climate change is a growing global concern. The Paris Agreement, the first ever legally binding global climate change agreement, enforced longer term actions for energy firms in terms of implementing newer means and technologies to reduce reliance on fossil fuel-based energy. In this regard, much attention is drawn to commercialized Power-To-Gas (PTG) - Hydrogen generated from renewable energy-based electrolysis can be introduced into natural gas utilities, thereby ensuring "Greener" natural gas mix. The integration of PTG plants and natural gas-fired power plants presents an attractive model to implement this. This paper analyzes the associated project management challenges, ranging from complexity issues to technology management and with a view on better integration and risk reduction. Power-to-Gas (PTG) is the process of converting surplus renewable energy into hydrogen gas through electrolysis. PTG plants and natural gas-fired power plants can form a closed loop between an electric power system and an interconnected multi-energy system, and this is believed to be a sustainable solution towards environment friendly energy systems. Power-to-Gas (PTG) technology is yet to mature in terms of its commercial viability. As such, traditional project management processes and methodologies also need to be reviewed and adapted to suit the economic and execution models needed for project success. The dimensions that will be analyzed in this paper include project integration management, project complexity management, technology management and risk management strategies. A model for Joint Venture management will also be proposed. PTG projects, as an effective means of transitioning to a ‘greener’ natural gas mix and the associated project life cycle process will be defined based on an integrated FEL (iFEL) model. Project risk management perspectives, its stakeholder influences and methods to mitigate risks towards better decision-making process shall be explored. This work proposes establishment of a dedicated, technically competent and scalable Global PMO to oversee the PTG projects’ prioritization, concept/technology selection, JV management, contracting strategies, formulation of a proactive management response system and overall value assurance.
管理能源转型-使电力适应天然气技术PTG -复杂性,技术和集成方面的项目管理审查
应对气候变化是一个日益受到全球关注的问题。《巴黎协定》是有史以来第一个具有法律约束力的全球气候变化协议,要求能源公司采取长期行动,采用更新的手段和技术,以减少对化石燃料能源的依赖。在这方面,商业化的电力制气(PTG)备受关注——基于可再生能源的电解产生的氢气可以引入天然气公用事业,从而确保“更环保”的天然气组合。PTG电厂与天然气电厂的整合为实现这一目标提供了一种有吸引力的模式。本文分析了相关的项目管理挑战,从复杂性问题到技术管理,并以更好的集成和降低风险的观点。电制气(PTG)是将多余的可再生能源通过电解转化为氢气的过程。PTG发电厂和天然气发电厂可以在电力系统和互联的多能源系统之间形成闭环,这被认为是环境友好型能源系统的可持续解决方案。电制气(PTG)技术在商业可行性方面尚未成熟。因此,传统的项目管理过程和方法也需要进行审查和调整,以适应项目成功所需的经济和执行模型。本文将分析的维度包括项目集成管理、项目复杂性管理、技术管理和风险管理策略。还将提出合资企业管理模式。PTG项目作为一种向“绿色”天然气组合过渡的有效手段,相关的项目生命周期过程将基于集成的FEL (lifl)模型进行定义。项目风险管理的观点,其利益相关者的影响和方法,以减轻风险,以更好的决策过程进行探讨。这项工作建议建立一个专门的、技术上有能力和可扩展的全球项目管理办公室,以监督PTG项目的优先顺序、概念/技术选择、合资企业管理、合同战略、制定主动管理响应系统和整体价值保证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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