the iso 50001 and potential impacts on the steel and metals industries-energy & utilities - mike...
DESCRIPTION
As presented at AIST 2014: ISO 50001 is a fast emerging standard for establishing and maintaining an Energy Management System. Adoption rates for ISO 50001 mirror that of ISO 14001 and companies in the metals and steel industries are among the early adopters.TRANSCRIPT
ISO 50001Potential Impacts to the Metals and Steel
Industries
Mike CrowleySchneider Electric
Overview of ISO 50001
• First published in 2011, provides a framework for an Energy Management System (EnMS)
• Similar in structure to ISO 14001, but Energy Specific
• Developed using existing best practices and standards from 58 member countries
Scalability of ISO 50001
• Enterprise, Division, Site or Product Line
• Companies define the scope and boundaries
• Align with company priorities
• Top management is responsible for defining
Plan-Do-Check-Act
Management Participation
• Top Management is RESPONSIBLE for:– Formation of team– Providing resources– Communicating– Establish policy and scope– Consider energy in business planning– Conduction reviews at regular intervals
Impacts to Procurement
• Energy services, products and equipment that have an impact on energy.
• Suppliers to be informed
• Examples: EE motor ratings, Energy Star certification
Adoption Rates
1 2 3 4 5 6 7 8 9 100
25,000
50,000
75,000
100,000
*
ISO standard adoption rateNumber of certified companies from year of introduction
ISO 14001 (1995) ISO 50001(2011)
* 2014 totals extrapolated from Q1 growthSources: http://www.iso.org/iso/survey10thcycle.pdfhttp://www.iso.org/iso/home/standards/certification/iso-survey.htm?certificate=ISO%209001&countrycode=AF
Global ParticipationUS, 60 Canada, 11
Mexico, 7
Germany, 3357Rest of World, 3665
Source: PEG EnMS ISO 50001 Certificates 4023-14
Estimated Resources
• Integrating to existing management system lowers costs– Document control– Legal Requirements
• Scope and boundary affects effort– Company, division, campus, facility or portion of
facility scope
Example Implementation
• Assumes single, medium size facility with existing ISO 14001 system– Gap Assessment -60 hours– Energy Review – 210 hours– EnMS Construction – 300 hours– Internal Audit – 140 hours– Certification Audit – 100 hours
• Total 810 hours, can be reduced by using outside consultants
Best Practices – Measurement and Reporting
•Integrated with production information, yields energy intensity metrics
To Certify or Not?
• Two important questions to ask:– Will implementing help me achieve superior results in
terms versus an internally managed program?– Will the certification help our business via external factors
such as customer recognition or governmental incentives?
• How sure are you that you will keep to your “Energy Diet”?
Case Study
• Schneider Electric Switchgear Plant• ISO 50001 certification and Better Plants
Challenge• Early corporate results had slowed• Improved commissioning process uncovered
incorrect equipment design for process speed• Uncovered issues with utility meter accuracy
Conclusion
• ISO 50001 provides framework for best energy management system design and practice
• Adoption rates rival that of ISO 14001
• Steel and Metals Industries and End Users are heavily represented.
• Seeking certification provides visibility to company commitment to energy efficiency and GHG reduction