Technical Articles

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Year Title Authors Source Link
1896 On the Influence of Carbonic Acid in the Air upon the Temperature of the Ground Arrhenius, S. Royal Society of Chemistry (PDF) Open
2010 Commercialization of sustainable energy technologies Balachandra, P.; Nathan, H. S.; Reddy, B. S. Renewable Energy, 35(8), 1842–1851 DOI
2019 Chapter 11: Technological innovation systems: a review of recent findings and suggestions for future research Bergek, A. Elgar Online (Book Chapter) Open
2015 The Practice of Learning History: Local and Open System Approaches Bradbury, H.; Roth, G.; Gearty, M. In: The SAGE Handbook of Action Research (pp. 17–30) DOI
2001 At the Edge: Sustainable Development in the 21st Century Dale, A. UBC Press (Google Books) Open
2010 The slow search for solutions: Lessons from historical energy transitions by sector and service Fouquet, R. Energy Policy, 38(11), 6586–6596 DOI
1990 The Rise and Fall of Infrastructures: Dynamics of Evolution and Technological Change in Transport Grubler, A. Physica-Verlag (IIASA repository) Open
2017 Emerging renewable and sustainable energy technologies: State of the art Hussain, A.; Arif, S. M.; Aslam, M. Renewable & Sustainable Energy Reviews, 71, 12–28 DOI
1977 Primary energy substitution models: On the interaction between energy and society Marchetti, C. Technological Forecasting and Social Change, 10(4), 345–356 DOI
1971 Environment, power, and society Odum, H. T. John Wiley and Sons, Inc. (OSTI record) Open
2022 Understanding Eunice Foote’s 1856 experiments: Heat absorption by atmospheric gases Ortiz, J. D.; Jackson, R. Notes and Records: The Royal Society Journal of the History of Science, 76(1), 67–84 DOI
2023 Earth beyond six of nine planetary boundaries Richardson, K. et al. Science Advances, 9(37), eadh2458 DOI
2009 Planetary Boundaries: Exploring the Safe Operating Space for Humanity Rockström, J. et al. Ecology and Society, 14(2) DOI
2002 Assessing the global energy innovation system: Some key issues Sagar, A. D.; Holdren, J. P. Energy Policy, 30(6), 465–469 DOI
2016 How long will it take? Conceptualizing the temporal dynamics of energy transitions Sovacool, B. K. Energy Research & Social Science, 13, 202–215 DOI

Industry Guidelines, Standards & Recommended Practices

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Category Title Organization Link
Protocol Corporate Standard (Scope 1 & 2) GHG Protocol Open
Protocol Corporate Value Chain (Scope 3) Standard GHG Protocol Open
Protocol Product Standard (Life Cycle / Product Footprints) GHG Protocol Open
Standard ISO 14064-1:2018 — Greenhouse gases (organization-level quantification & reporting) ISO Open
Standard ISO 14064-2:2019 — Greenhouse gases (project-level quantification, monitoring & reporting) ISO Open
Standard ISO 14064-3:2019 — Greenhouse gases (verification & validation of GHG statements) ISO Open
Standard ISO 14068-1:2023 — Climate change management: Transition to net zero (Carbon neutrality) ISO Open
Standard IWA 42:2022 — Net zero guidelines ISO Open
Standard ISO 14040:2006 — Environmental management: Life cycle assessment (Principles & framework) ISO Open
Standard ISO 14044:2006 — Environmental management: Life cycle assessment (Requirements & guidelines) ISO Open
Standard ISO 14067:2018 — Greenhouse gases: Carbon footprint of products (Requirements & guidelines) ISO Open
Standard AB TIER Standard — Completing greenhouse gas compliance and forecasting reports (Version 3.3) Government of Alberta PDF
Course ISO 14064-1:2018 — Greenhouse Gas Inventories & Measuring Carbon Footprint CSA Group Open
Course ISO 14064-2:2019 — Greenhouse Gas Projects and Reducing Environmental Impact CSA Group Open
Course ISO 14064-3:2019 — Greenhouse Gas Verification and Validation CSA Group Open
Course Online Training (various) GHG Protocol Open
Course Courses (various) GHG Management Institute Open