BS EN ISO 55001 Implementation and Case Studies Charles Barker Key Expert EUCTP II
What are we going to talk about? BS EN ISO 55001 and principal requirements Other Standards which support BS EN ISO 55001 Case studies demonstrating the use of BS ISO 55001 Other thoughts relating to technical planning for the implementation BS EN ISO 55001
BS EN ISO 55001 My Colleagues Mr Ziegler and Mr Cazelles have already provided information relating to EU and International standards and BS EN ISO 55001 respectively So I will only provide a overview of BS EN ISO 55001
BS EN ISO 50001 Who Who is BS EN ISO 50001 for? ISO 50001 is suitable for any organization whatever your size, sector or geographical location. It is particularly relevant if you operate in an energy intensive industry or one facing GHG emissions regulation or legislation.
BS EN ISO 55001 Benefits Benefits of ISO 50001 Energy Management Reduce costs Reduce energy costs via a structured approach to identifying, measuring and managing your energy consumption. Reduce GHG emissions and improve compliance with legislation Understand your energy risk exposure and identify areas of the organization at greatest risk.
BS EN ISO 55001 Benefits Benefits of ISO 50001 Energy Management Improve business performance Drive greater productivity by systematically identifying the most cost effective technical solutions and behavioural changes to reduce energy consumption. Position energy management in the boardroom as a key issue for investment by your organization. Align your Energy Management System (EnMS) with existing management systems for incremental benefit.
BS EN ISO 55001 Certification Demonstrates to your stakeholders that you meet the very latest energy management best-practice. The Energy Management Assessment Process The assessment is typically conducted in two stages. Stage one An assessor looks at top level policy, documentation, processes and procedures that manage the energy consumption. Stage Two of the assessment is focused on the effective implementation of the policy, documentation, processes and procedures and will involve discussions with all levels of staff within your organization. Subject to a successful EnMS assessment, a certificate of registration is issued to demonstrate the scope of your activities, the locations covered, and the standard against which you have been assessed.
BS EN ISO 55001 and Other Standards BS EN 16212:2012 Energy Efficiency and Savings Calculation, Top-down and Bottom-up Methods Covers issues such as Energy conservation, Energy consumption, Life (durability), Longterm and Mathematical calculations
BS EN ISO 55001 and Other Standards BS EN 16247-1:2012 Energy audits. General requirements Applies to commercial, industrial, residential and publicsector organisations, excluding individual private dwellings. The standard does not deal with the energy audit programme properties (such as administration, training of energy auditors, quality control issues, energy auditors' tools,etc.). Specifies the common methodology and deliverables for energy audits. Covers the general requirements common to all energy audits. Specific energy audit requirements will complete the general requirements in separate parts dedicated to energy audits for buildings, industrial processes and transportation.
BS EN ISO 55001 and Other Standards BS EN 16231:2012 Energy efficiency benchmarking methodology This standards covers issues such as : Energy technology, Management, Efficiency, Energy consumption, Energy conservation, Management techniques, Planning, Conformity, Quality assurance, Quality management, Quality auditing, Environmental management, Documents, Measurement, Performance
So, What are we looking for? Incremental Savings (Finance) Added value to overall management integrated systems (ISO 9000, 14000, 18000 and others) Actual measured savings in energy or reduction of GHG (Complying with Country Regulations and signatory agreements) Best Practice Enterprise and recognised globally as a environmental friendly company (Marketing and Brand Reputation)
Who should implement? Every type of organisation: A) Universities B) Main Energy users such as Steel Mills etc C) Large manufacturing Enterprises for their own systems and production of energy efficient products D) SMEs E) Architects, Civil Engineers Building and Building Maintenance Contractors
BSI Case Studies Hallam University in UK BSI Case Study Sheffield Hallam University ISO 50001 Energy Management System University reduces carbon emissions by 11 per cent and total energy savings by 10,000 per month Customer objectives Proactively respond to government and sector-led carbon reduction programmes Minimise the risk to future operations by improving reputation, reducing financial, increase and reducing reliance on fossil fuels Adopt a formal structure to better manage energy consumption and achieve greater energy savings To be able to practise what they preach many of the university s courses have elements of sustainability and sustainable development as part of the syllabus
BSI Case Studies Hallam University in UK BSI Case Study Sheffield Hallam University ISO 50001 Energy Management System Results 11 per cent reduction in annual carbon emissions from total energy use from baseline of 2005 prior to the ISO implementation annual savings of 5 per cent CO2 of electricity even though the estate has increased in size by 2 per cent. Savings of carbon by floor area of 6.5 per cent Savings across projects of 50,000 over last 5 months and over 100,000 over past year with prices increasing, the savings already made will be even more significant Enhanced reputation and best practice example for energy management awarded a first degree at People and Planet League Table, platinum award for Business in the Community and Climate Champion award
BSI Case Study Yamazaki Jari Shoten Customer needs where: Reduce cost by improving energy efficiency at the operation of plants where large amounts of energy are consumed Utilize the interest-free funding scheme managed by their government on the Environment by reducing CO2 emission
BSI Case Study Yamazaki Jari Shoten Customer Benefits: Identifying plants consuming large amounts of energy and prioritizing energy efficiency improvement efforts by conducting energy reviews Reducing financial cost by utilizing the nointerest funding scheme managed by their government
BSI Case Study Yamazaki Jari Shoten
BSI Case Study Thornhill Heat Exchangers Thornhill Heat Exchangers Ltd is a world leader in the servicing, manufacture and supply of heat exchangers and of aftermarket plate heat exchanger gaskets. Aims: Ensure compliance Operate low carbon footprint Reduce energy use Benefits Immediate costs savings identified Development of an energy management policy Demonstrate commitment to customers
BSI Case Study Thornhill Heat Exchangers Implementation The Thornhill team looked at their current business processes and policies, drafted and adapted procedures in line with the plan-do-check-act model that underpins ISO 50001 and so put in place the structure to enable them to implement the new standard. The group looked at hypothetical situations to evaluate opportunities for energy saving. A walk around the Thornhill manufacturing site with the energy engineers from Projective to identify any possible quick wins for energy saving immediately identified total cost savings of around 150,000 per year. These ranged from installing a group office light switch for 50 to save an estimated 360 per year to condensing the boiler stack gas and using the heat for hot water which would save an estimated 36,000 per year at an estimated installation cost of only 35,000.
BSI Case Study Thornhill Heat Exchangers Mike Thornhill said, Although from a finance point of view it is useful to use a set formula for dividing costs between the revenue streams of the business, when it comes to energy management it is much more important to evaluate usage against revenue proper in order to leverage savings. The workshop made me realize the potential we had for better use of our resources.
BSI Case Study City of London The City of London provides local government and policing services for the financial and commercial heart of Britain, the Square Mile. Aims Reduce carbon emissions by 15% by 2015 Deliver tangible and sustainable carbon reduction measures Secure senior management commitment to carbon reduction Benefits Accountability for energy use among senior management Potential cost savings Demonstrate best practice
BSI Case Study City of London Conclusion Energy Manager, explained: For those who have a level of experience and are looking to improve and embed good energy management, ISO 50001 could be invaluable, especially for local authorities that can have very bold targets on carbon emissions but have a huge gulf between the aspiration and the practicalities of implementation. We are never content with maintaining the status quo, we are always looking to and being encouraged to improve. Energy manager also sees the value of the standard in potential cost savings and in giving more weight to energy management: raising the profile internally, and gaining external recognition for the rigour in its energy management activity.
BSI Case Study Camfil Farr Camfil Farr is the global leader in providing air filtration and clean air solutions. The company s filters are manufactured at 23 production plants across the world and are used in offices, mines, factories, hospitals, nuclear power stations and more. The company is run from a 160,000 sq ft manufacturing plant in Lancashire with more than 200 employees and the entire workforce is committed to managing and saving energy.
BSI Case Study Camfil Farr Camfil Farr s energy initiatives have led to: Energy Awards Excellence in Carbon Reduction Energy Awards Energy Efficient Product of the Year Best Factory Awards - Best Engineering Plant MITIE Supplier award - Overall Winner supplier award Carbon Reduction
BSI Case Study Camfil Farr Camfil chose to integrate its management systems with common procedures that were already in place through ISO 14001 and ISO 50001 helped the company focus on continual improvement of energy performance. Key to the company s success has been engaging and involving every member of staff. There has been a positive effect on employees to improve energy management. The company has an energy efficient culture and values least effort /biggest reward. Camfil staff are continuously rewarded for their energy saving initiatives via a bonus scheme which includes a 1% for energy reduction in pay reviews. A representative added: Energy savings require the commitment of top management and the whole workforce. There ideally needs to be a champion in the organization who can drive change and savings. He also noted that the certificate of registration could be amended to reflect the savings that an organization has achieved Camfil have reduced energy costs from 500,000 in 2008 to 300,000 to date
BSI Case Study Camfil Farr Conclusions The company is proud to be a sustainable organisation in both its operations and the products it manufactures. Camfil has reduced its energy bill year on year, saving carbon and hitting sustainability targets. They have also enjoyed improved PR through certification to ISO 50001 and numerous awards including the Carbon Reduction Award for SMEs, the Kitemark for Energy Reduction Verification (ERV) by BSI and the Best Engineering Plant of the Year presented by Cranfield School of Management. The Managing Director added: Our energy efficient culture costs us nothing and our employees enjoy it. Having a formal standard like ISO 50001 in place demonstrates our commitment at all levels across the organization. This approach saves money and protects the environment.
Technical Issues The Management System can be considered a platform but it is the measures taken by an enterprise which will allow for energy efficiency to be measured and cost effective solution are found What is required are agreed measurements that demonstrate reduction in energy uses and reduction of GHG emissions
What technical issues are we looking for? A) Buildings and effective measures such as: Improving the energy efficiency of existing buildings, installation process, process management and service provision e.g. Building Cladding Building cavity walls and fillings Building Windows and insulation Building HVAC systems and maintenance Building installation of equipment, pumps, boilers, electric motors, lighting and others Policy measures and other issues
What technical issues are we looking for? B) Actual Equipment in the factory All machinery and electrical equipment and energy efficiency measurements and improvement Issues related to power factors and measurements in the supply of electricity Output of GHG from the processes within the factory, how to measure Others
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