Designing a zero-order energy transition model: How to create a new Starter Data Kit
Carla Cannone,
Lucy Allington,
Karla Cervantes Barron,
Flora Charbonnier,
Miriam Zachau Walker,
Claire Halloran,
Rudolf Yeganyan,
Naomi Tan,
Jonathan M Cullen,
John Harrison,
Long Seng To,
Mark Howells
Affiliations
Carla Cannone
Centre for Sustainable Transitions: Energy, Environment & Resilience (STEER), Loughborough University, United Kingdom; Centre for Environmental Policy, Imperial College London, United Kingdom; Corresponding author.
Lucy Allington
Centre for Sustainable Transitions: Energy, Environment & Resilience (STEER), Loughborough University, United Kingdom
Karla Cervantes Barron
Department of Engineering, University of Cambridge, United Kingdom
Flora Charbonnier
Department of Engineering Science, University of Oxford, United Kingdom
Miriam Zachau Walker
Department of Engineering Science, University of Oxford, United Kingdom
Claire Halloran
Department of Engineering Science, University of Oxford, United Kingdom
Rudolf Yeganyan
Centre for Sustainable Transitions: Energy, Environment & Resilience (STEER), Loughborough University, United Kingdom; Centre for Environmental Policy, Imperial College London, United Kingdom
Naomi Tan
Centre for Sustainable Transitions: Energy, Environment & Resilience (STEER), Loughborough University, United Kingdom; Centre for Environmental Policy, Imperial College London, United Kingdom
Jonathan M Cullen
Department of Engineering, University of Cambridge, United Kingdom
John Harrison
Centre for Sustainable Transitions: Energy, Environment & Resilience (STEER), Loughborough University, United Kingdom
Long Seng To
Centre for Sustainable Transitions: Energy, Environment & Resilience (STEER), Loughborough University, United Kingdom
Mark Howells
Centre for Sustainable Transitions: Energy, Environment & Resilience (STEER), Loughborough University, United Kingdom; Centre for Environmental Policy, Imperial College London, United Kingdom
The Paris Agreement was signed by 192 Parties, who committed to reducing emissions. Reaching such commitments by developing national decarbonisation strategies requires significant analyses and investment. Analyses for such strategies are often delayed due to a lack of accurate and up-to-date data for creating energy transition models. The Starter Data Kits address this issue by providing open-source, zero-level country datasets to accelerate the energy planning process. There is a strong demand for replicating the process of creating Starter Data Kits because they are currently only available for 69 countries in Africa, Asia, and South America. Using an African country as an example, this paper presents the methodology to create a Starter Data Kit made of tool-agnostic data repositories and OSeMOSYS-specific data files. The paper illustrates the steps involved, provides additional information for conducting similar work in Asia and South America, and highlights the limitations of the current version of the Starter Data Kits. Future development is proposed to expand the datasets, including new and more accurate data and new energy sectors. Therefore, this document provides instructions on the steps and materials required to develop a Starter Data Kit. • The methodology presented here is intended to encourage practitioners to apply it to new countries and expand the current Starter Data Kits library. • It is a novel process that creates data pipelines that feed into a single Data Collection and Manipulation Tool (DaCoMaTool). • It allows for tool-agnostic data creation in a consistent format ready for a modelling analysis using one of the available tools.
