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TitlePredicting the quantifiable impacts of ISO 50001 on climate change mitigation
 
AuthorMcKane, A; Therkelsen, P; Scodel, A; Rao, P; Aghajanzadeh, A; Hirzel, S; Zhang, R; Prem, R; Fossa, A; Lazarevska, A M; Matteini, M; Schreck, B; Allard, F; Villegal Alcántar, N; Steyn, K; Hürdogan, E; Björkman, T; O'Sullivan, J
SourceEnergy Policy vol. 107, 2017 p. 278-288, https://doi.org/10.1016/j.enpol.2017.04.049
Image
Year2017
Alt SeriesNatural Resources Canada, Contribution Series 20190230
PublisherElsevier
Documentserial
Lang.English
Mediapaper; on-line; digital
File formatpdf; html
SubjectsEconomics and Industry; Science and Technology; Nature and Environment; Government and Politics; energy; energy conservation; carbon dioxide; energy policy; Methodology; Standards; Climate change; mitigation; Mitigation; Energy efficiency; Energy management; Impact studies; Industry; Greenhouse gases
Illustrationstables; graphs; time series
ProgramCanadian Industry Partnership for Energy Conservation (CIPEC)
Released2017 05 04
AbstractEnergy consumption in the industrial and commercial (service) sectors accounts for nearly 40% of global greenhouse gas emissions. Reducing this energy consumption will be critical for countries to achieve their national greenhouse gas reduction commitments. The ISO 50001-Energy management standard provides a continual improvement framework for organizations to reduce their consumption. Several national policies already support ISO 50001; however, there is no transparent, consistent process to estimate the potential impacts of its implementation.
This paper presents the ISO 50001 Impacts Methodology, an internationally-developed methodology to calculate these impacts at a national, regional, or global scale suitable for use by policymakers. The recently-formed ISO 50001 Global Impacts Research Network provides a forum for policymakers to refine and encourage use of the methodology.
Using this methodology, a scenario with 50% of projected global industrial and service sector energy consumption under ISO 50001 management by 2030 would generate cumulative primary energy savings of approximately 105 EJ, cost savings of nearly US $700 billion (discounted to 2016 net present value), and 6500 million metric tons (Mt) of avoided CO2 emissions. The avoided annual CO2 emissions in 2030 alone are equivalent to removing 210 million passenger vehicles from the road.
GEOSCAN ID321414

 
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