This document provides an overview and summary of ISO 50001, the international standard for Energy Management Systems (EnMS). It begins with background on ISO and how ISO 50001 was developed. It then summarizes each clause of ISO 50001, including the requirements for establishing an EnMS, defining the energy policy, planning energy management actions, implementing the EnMS, monitoring performance and conducting management reviews. Key requirements covered include conducting an energy review, setting energy performance indicators and objectives, ensuring competence and awareness, and continually improving energy performance. The document provides interpretive guidance and examples for complying with each requirement.
ISO 50001 is an international standard for energy management systems that provides a framework to help organizations improve energy efficiency, reduce costs, and achieve energy performance targets. It establishes requirements for developing and implementing an energy policy, setting objectives and action plans, monitoring energy use, and reviewing performance. The standard is intended to help organizations manage energy use across their operations and supply chains.
ISO 50001 provides requirements for establishing an energy management system (EnMS) to improve energy performance. The EnMS standard is based on the Plan-Do-Check-Act cycle and incorporates energy management practices into organizational activities. Key elements of an EnMS include developing an energy policy, conducting energy planning to establish objectives and targets, implementing and operating the EnMS, monitoring performance, conducting management reviews, and continually improving the system. Certification to ISO 50001 can help organizations reduce energy costs, improve energy efficiency, and meet environmental and regulatory requirements.
The document discusses ISO 50001:2018, which provides a framework for an Energy Management System (EnMS) to help organizations systematically improve their energy performance and management. Key points include:
- ISO 50001 establishes requirements to develop an energy policy, set objectives and targets, and implement a process to achieve improvements.
- Benefits of an EnMS include reduced energy costs and consumption, improved productivity, global recognition, and reduced environmental impact.
- The standard can be applied by any organization regardless of size and helps set a baseline for energy use and continual improvement.
- Energy management standards like ISO 50001 provide organizations with guidelines for improving energy efficiency. International groups like ISO and CEN develop these standards to benefit business and society. ISO 50001 has become the global best practice for energy management systems, helping companies save 5-37% on energy costs. Adopting ISO 50001 provides benefits like reduced costs and carbon emissions as well as increased credibility. Many successful companies have certified to ISO 50001 and achieved significant energy and financial savings as a result.
ISO 50001 presentation to a company in Jamaica.Phillip Thomas
ISO 50001 is a new ISO standard that can bring significant benefits to Jamaica and other Caribbean countries. Interest for ISO 50001 is beginning to take traction in Jamaica. This presentation was delivered to a company which is actively engaged in setting up an energy management system and wants to incorporate the best practices available thus there interest in ISO 50001.
ISO 50001 es un nuevo estándar ISO que puede traer importantes beneficios a Jamaica y otros países del Caribe. Interés por la norma ISO 50001 está empezando a tomar impulso en Jamaica. Esta presentación haya comunicado a una empresa que participa activamente en la creación de un sistema de gestión de la energía y quiere incorporar las mejores prácticas disponibles por lo tanto existe interés en ISO 50001.
El documento resume la norma ISO 50001 sobre sistemas de gestión de la energía. Explica que la primera versión se lanzó en 2001 y la segunda en 2018, incluyendo cambios como contexto, gestión de riesgos y partes interesadas. También indica que países como España, Italia y Brasil son los primeros en certificaciones ISO 50001 en el mundo. Finalmente, destaca que la norma ayuda a mejorar la eficiencia energética y productividad de las empresas.
Heather Flanagan, ABB, presented information on the different types of electric vehicle charging stations that are available for Wisconsin Clean Cities EV Basics & Barriers webinar.
This document provides an overview of energy security challenges in Asia and examines the energy profiles and strategies of major countries in the Asia-Pacific region. It finds that all countries are increasingly dependent on foreign energy sources and vulnerable to supply disruptions. Key countries are diversifying their sources of supply but also enhancing their naval and military capabilities to secure strategic waterways. There is a need for greater cooperation on issues like collective stockpiling and development of alternative energy, to help address shared energy security concerns.
ISO 50001 is an international standard for energy management systems that provides a framework to help organizations improve energy efficiency, reduce costs, and achieve energy performance targets. It establishes requirements for developing and implementing an energy policy, setting objectives and action plans, monitoring energy use, and reviewing performance. The standard is intended to help organizations manage energy use across their operations and supply chains.
ISO 50001 provides requirements for establishing an energy management system (EnMS) to improve energy performance. The EnMS standard is based on the Plan-Do-Check-Act cycle and incorporates energy management practices into organizational activities. Key elements of an EnMS include developing an energy policy, conducting energy planning to establish objectives and targets, implementing and operating the EnMS, monitoring performance, conducting management reviews, and continually improving the system. Certification to ISO 50001 can help organizations reduce energy costs, improve energy efficiency, and meet environmental and regulatory requirements.
The document discusses ISO 50001:2018, which provides a framework for an Energy Management System (EnMS) to help organizations systematically improve their energy performance and management. Key points include:
- ISO 50001 establishes requirements to develop an energy policy, set objectives and targets, and implement a process to achieve improvements.
- Benefits of an EnMS include reduced energy costs and consumption, improved productivity, global recognition, and reduced environmental impact.
- The standard can be applied by any organization regardless of size and helps set a baseline for energy use and continual improvement.
- Energy management standards like ISO 50001 provide organizations with guidelines for improving energy efficiency. International groups like ISO and CEN develop these standards to benefit business and society. ISO 50001 has become the global best practice for energy management systems, helping companies save 5-37% on energy costs. Adopting ISO 50001 provides benefits like reduced costs and carbon emissions as well as increased credibility. Many successful companies have certified to ISO 50001 and achieved significant energy and financial savings as a result.
ISO 50001 presentation to a company in Jamaica.Phillip Thomas
ISO 50001 is a new ISO standard that can bring significant benefits to Jamaica and other Caribbean countries. Interest for ISO 50001 is beginning to take traction in Jamaica. This presentation was delivered to a company which is actively engaged in setting up an energy management system and wants to incorporate the best practices available thus there interest in ISO 50001.
ISO 50001 es un nuevo estándar ISO que puede traer importantes beneficios a Jamaica y otros países del Caribe. Interés por la norma ISO 50001 está empezando a tomar impulso en Jamaica. Esta presentación haya comunicado a una empresa que participa activamente en la creación de un sistema de gestión de la energía y quiere incorporar las mejores prácticas disponibles por lo tanto existe interés en ISO 50001.
El documento resume la norma ISO 50001 sobre sistemas de gestión de la energía. Explica que la primera versión se lanzó en 2001 y la segunda en 2018, incluyendo cambios como contexto, gestión de riesgos y partes interesadas. También indica que países como España, Italia y Brasil son los primeros en certificaciones ISO 50001 en el mundo. Finalmente, destaca que la norma ayuda a mejorar la eficiencia energética y productividad de las empresas.
Heather Flanagan, ABB, presented information on the different types of electric vehicle charging stations that are available for Wisconsin Clean Cities EV Basics & Barriers webinar.
This document provides an overview of energy security challenges in Asia and examines the energy profiles and strategies of major countries in the Asia-Pacific region. It finds that all countries are increasingly dependent on foreign energy sources and vulnerable to supply disruptions. Key countries are diversifying their sources of supply but also enhancing their naval and military capabilities to secure strategic waterways. There is a need for greater cooperation on issues like collective stockpiling and development of alternative energy, to help address shared energy security concerns.
This document discusses energy management and provides tips for improving energy efficiency. It notes that the biggest energy wasters are fuel used for operations and HVAC systems, and electricity usage. Reasons to focus on energy efficiency include legal requirements, costs savings, and environmental impacts. The document recommends auditing current energy usage, focusing on easy fixes like policies and upgrades. Larger projects should be researched for costs and benefits. Tracking achievements can help motivate staff and stakeholders to continually improve energy management.
This document discusses fuel cell technology as a sustainable and environmentally-friendly energy source. It provides an overview of different types of fuel cells, how they work by converting hydrogen and oxygen to produce electricity, and their applications, particularly in transportation. While fuel cells can help address issues with fossil fuels and limitations of batteries, the technology still faces challenges like high costs and difficulty storing and distributing hydrogen fuel that must be overcome for widespread adoption.
PECB webinar: ISO 50001:2011 - Understanding Energy Management System (EnMS) PECB
Summary:
This webinar provides a comprehensive overview of the ISO 50001 standard. You will learn how using, developing and managing policies and procedures can improve energy efficiency, achieve targets, and reduce costs. You will also gain the confidence to build awareness of energy efficiency across your organization, which is the vital starting point for anyone planning to develop an energy management system.
Speaker:
Eng. Tawfik Soukieh is the managing director of GLOBAL Experience Consulting Company (GEC) from Kuwait, with more than 20 years of international experience in Energy sector. Throughout years, he has acquired invaluable international business experience, which he utilizes to assist companies with ISO standards with a rich portfolio of different quality management certifications such as: ISO 50001, ISO 9001, ISO 14001, ISO 13053, OHSAS 18001, ISO 17025, ISO 29001, etc. He is also a member of: Institute of Industrial Engineers (senior member, Atlanta (IIE- U.S.A)), Kuwait Society of Engineers (KSE-KUWAIT), Association of quality and practice (ASQ-USA).
For ISO 50001 Training, Exam, and Certification, please contact: customer@pecb.com
- An Energy Performance Indicator (EnPI) is a type of Key Performance Indicator used to measure the energy performance of a company's processes.
- EnPIs can be used as quality, cost, service, or time indicators. They involve periodically checking energy consumption, analyzing variables that influence energy use, and estimating future consumption and savings.
- EnPIs are important for an Energy Management System to check overall performance and ensure the system is based on measurable data and information like other management systems. They require defining the relationship between energy use and relevant variables.
This document provides an overview of the battery supply chain in Europe, including raw materials, bottlenecks, and potential solutions. It discusses the growth of the EV market in Europe and increasing demand for battery materials like lithium, cobalt, and nickel through 2030. Current supply chain disruptions are outlined, with Europe heavily reliant on other regions for raw materials. Proposed solutions focus on developing secondary supply chains through battery reuse, recycling, and investing in recycling facilities. Long-term strategies include alliances to diversify raw material sourcing and funding to encourage domestic refining and production.
Proposed energy efficiency program at melaka malaysia by MAESCOZAINI ABDUL WAHAB
The presentation provided an overview of energy efficiency potentials and options for cost savings through sustainable energy management for Malaysian hotel facilities. It discussed energy service companies (ESCOs) and energy performance contracting models, where an ESCO implements energy efficiency projects at no upfront cost to the building owner by guaranteeing energy savings. Potential savings of 40-60% were cited from lighting system upgrades. Next steps proposed confirming interests from Malaysian Association of Hotels members to pursue projects with MAESCO and support from the Malaysian government.
Tata Projects is Top Engineering, Construction & Procurement Company in India. It has expertise in executing Industrial and Urban Infrastructure projects.
ISO 50001 provides a framework for organizations to establish an energy management system to improve energy performance including energy efficiency. It helps companies reduce energy costs, better utilize existing energy-consuming assets, and facilitate transparency in energy resource management. Implementing ISO 50001 involves establishing an energy policy, conducting an energy review to establish a baseline and indicators, implementing a plan to improve energy performance through the PDCA cycle, and continually reviewing and improving the EnMS.
EV BATTERY RECYCLING TECHNOLOGY AND THE PRIMARY DRIVERSDesignTeam8
Ascend Elements was formerly known as Battery Resourcers and focuses on recycling lithium-ion batteries and manufacturing recycled cathode active materials using its patented Hydro-to-Cathode technology. It is expanding its US manufacturing capacity to 30,000 metric tons per year by 2022 and plans global capacity of 150,000 metric tons per year by 2026. Its Hydro-to-Cathode process directly converts battery materials into new cathode active materials, creating more value from recycling than traditional methods and providing a more sustainable solution for battery materials.
The document provides an overview of electric vehicle charging standards. It discusses what standards are and how they are developed through consensus among technical experts. The most important international charging standards are described, including modes for conductive charging (Modes 1-4), wireless charging, and battery swapping. Key safety standards are outlined that cover different aspects of the conductive charging system from the grid to the vehicle. Broader standards relating to electric vehicles, communication, and security are also listed. Details are provided on the requirements and tests specified in the main conductive charging standard IEC 61851-1. The document concludes with discussing installation standards.
Required ISO 50001-2018 documents for energy management systemGlobal Manager Group
The latest version of ISO 50001 published on August, 2018 and transition from the previous version is ahead. One of the most important steps in the transition process, as well as in the initial implementation, is determining what documents are needed for an effective Energy Management System (EnMS) based on ISO 50001:2018. This publication designed to understand mandatory ISO 50001 documents requirements as per latest standard ISO 50001:2018.
For more details visit our website: https://www.globalmanagergroup.com/
Battery Circular Economy approaches for redesign, reuse and regulationOlgaRodrguezLargo
This document discusses second life applications for electric vehicle batteries. It notes that as electric vehicle adoption increases, there will be a large number of used EV batteries available for reuse. The document outlines some of the challenges in reusing these batteries, such as developing safe and standardized dismantling and testing procedures. It also discusses requirements for adapting used EV batteries for new applications, such as modifying battery management systems and electrical connections. The document provides examples of second life battery applications and considerations for matching batteries to new uses.
The document discusses ISO 50001, an international standard for energy management systems. It provides an overview of ISO as an organization, outlines the key components and requirements of ISO 50001, and explains how the standard was developed to help organizations improve energy performance and reduce costs through establishing energy management strategies. The standard provides a framework to help set energy policies, objectives, and improvement plans using a plan-do-check-act model.
Practical approach of ENERGY MANAGEMENT to sustain profitabilityZAINI ABDUL WAHAB
This document summarizes a seminar on energy efficiency for sustainable business. The seminar covered corporate trends and potentials for energy savings to increase profitability, barriers to implementing energy efficiency measures and how to overcome them, key success factors and steps to reduce energy costs, and support needed from the government. Surveys showed that sustainability is increasingly important to businesses and investors. Implementing energy efficiency measures can help businesses reduce costs and boost their image while helping the environment. Barriers to energy efficiency include lack of funding and technical expertise. Adopting an energy management system and clear energy policy can help businesses implement effective energy efficiency projects and achieve sustainable energy savings.
This document provides guidance on implementing ISO 50001, the international standard for Energy Management Systems. It begins with an introduction to ISO 50001, outlining its development and purpose. The main benefits of implementation are then summarized, including cost reduction, reducing energy consumption, improving carbon footprint, and enhancing organizational engagement and reputation. Key aspects of the standard like the Plan-Do-Check-Act cycle and risk-based thinking are explained. An overview is also given of each section of ISO 50001, covering topics like leadership, planning, performance evaluation, and continual improvement.
The ISO 50001 Certification and energy management system help organization to increase energy efficiency in the work area as well as reducing energy costs in manufacturing industries. Energy Management System and ISO 50001 certification consultancy company had helped many global clients for implementation of EnMS to achieve ISO 50001 certification by promote energy management best practices and reinforce good energy management behaviors.
E-mobility | Part 2 - Battery Technology & Alternative Innovations (English)Vertex Holdings
Today, 60% of electric vehicles (EVs) are powered by lithium-ion batteries (LIBs) due to its efficiency, high power-to-weight ratio and flexibility to allow chemical alterations. As the EV industry gains steam, supply chain and design challenges are spurring battery manufacturers to explore alternatives.
Some of the alternative battery technologies include lithium-iron phosphate (LFP), lithium-sulfur battery (LSB) and sodium-ion battery (SIB). Besides LFP, LSB and SIB, solid-state batteries (SSBs) are touted as a forerunner for the next-generation battery technology.
Despite these advancements, the current speed of innovation is not accelerating fast enough to meet the demands of the rapidly growing EV sector. This presents opportunities in areas such as battery design and securing the supply chain locally via vertical integration.
As the world welcomes green mobility, commercializing battery technology will be imperative to drive global EV adoption. Given the increased push for battery development and innovation, we believe that it’s only a matter of time before supply catches up with demand.
Find out more here: https://bit.ly/3HUaf1Z
THE ALL-SOLID-STATE LITHIUM-ION BATTERY FACTORYiQHub
Ilika was founded in 2004 at the University of Southampton. Between 2004-2018, they engaged in developing novel materials with commercial partners. They went public on the London Stock Exchange in 2010. In 2018, they began developing solid-state battery technology for electric vehicles and received government grants totaling $10 million. Their technology uses oxide-based solid electrolytes and they are working to commercialize the technology starting in 2023 through partnerships with automakers.
2018 sees the release of the latest version of the international standard for Energy Management, ISO 50001. The panel briefly covers the main changes to the standard, but the main focus is on what organisations should take into account when considering the certification.
This document discusses energy management and provides tips for improving energy efficiency. It notes that the biggest energy wasters are fuel used for operations and HVAC systems, and electricity usage. Reasons to focus on energy efficiency include legal requirements, costs savings, and environmental impacts. The document recommends auditing current energy usage, focusing on easy fixes like policies and upgrades. Larger projects should be researched for costs and benefits. Tracking achievements can help motivate staff and stakeholders to continually improve energy management.
This document discusses fuel cell technology as a sustainable and environmentally-friendly energy source. It provides an overview of different types of fuel cells, how they work by converting hydrogen and oxygen to produce electricity, and their applications, particularly in transportation. While fuel cells can help address issues with fossil fuels and limitations of batteries, the technology still faces challenges like high costs and difficulty storing and distributing hydrogen fuel that must be overcome for widespread adoption.
PECB webinar: ISO 50001:2011 - Understanding Energy Management System (EnMS) PECB
Summary:
This webinar provides a comprehensive overview of the ISO 50001 standard. You will learn how using, developing and managing policies and procedures can improve energy efficiency, achieve targets, and reduce costs. You will also gain the confidence to build awareness of energy efficiency across your organization, which is the vital starting point for anyone planning to develop an energy management system.
Speaker:
Eng. Tawfik Soukieh is the managing director of GLOBAL Experience Consulting Company (GEC) from Kuwait, with more than 20 years of international experience in Energy sector. Throughout years, he has acquired invaluable international business experience, which he utilizes to assist companies with ISO standards with a rich portfolio of different quality management certifications such as: ISO 50001, ISO 9001, ISO 14001, ISO 13053, OHSAS 18001, ISO 17025, ISO 29001, etc. He is also a member of: Institute of Industrial Engineers (senior member, Atlanta (IIE- U.S.A)), Kuwait Society of Engineers (KSE-KUWAIT), Association of quality and practice (ASQ-USA).
For ISO 50001 Training, Exam, and Certification, please contact: customer@pecb.com
- An Energy Performance Indicator (EnPI) is a type of Key Performance Indicator used to measure the energy performance of a company's processes.
- EnPIs can be used as quality, cost, service, or time indicators. They involve periodically checking energy consumption, analyzing variables that influence energy use, and estimating future consumption and savings.
- EnPIs are important for an Energy Management System to check overall performance and ensure the system is based on measurable data and information like other management systems. They require defining the relationship between energy use and relevant variables.
This document provides an overview of the battery supply chain in Europe, including raw materials, bottlenecks, and potential solutions. It discusses the growth of the EV market in Europe and increasing demand for battery materials like lithium, cobalt, and nickel through 2030. Current supply chain disruptions are outlined, with Europe heavily reliant on other regions for raw materials. Proposed solutions focus on developing secondary supply chains through battery reuse, recycling, and investing in recycling facilities. Long-term strategies include alliances to diversify raw material sourcing and funding to encourage domestic refining and production.
Proposed energy efficiency program at melaka malaysia by MAESCOZAINI ABDUL WAHAB
The presentation provided an overview of energy efficiency potentials and options for cost savings through sustainable energy management for Malaysian hotel facilities. It discussed energy service companies (ESCOs) and energy performance contracting models, where an ESCO implements energy efficiency projects at no upfront cost to the building owner by guaranteeing energy savings. Potential savings of 40-60% were cited from lighting system upgrades. Next steps proposed confirming interests from Malaysian Association of Hotels members to pursue projects with MAESCO and support from the Malaysian government.
Tata Projects is Top Engineering, Construction & Procurement Company in India. It has expertise in executing Industrial and Urban Infrastructure projects.
ISO 50001 provides a framework for organizations to establish an energy management system to improve energy performance including energy efficiency. It helps companies reduce energy costs, better utilize existing energy-consuming assets, and facilitate transparency in energy resource management. Implementing ISO 50001 involves establishing an energy policy, conducting an energy review to establish a baseline and indicators, implementing a plan to improve energy performance through the PDCA cycle, and continually reviewing and improving the EnMS.
EV BATTERY RECYCLING TECHNOLOGY AND THE PRIMARY DRIVERSDesignTeam8
Ascend Elements was formerly known as Battery Resourcers and focuses on recycling lithium-ion batteries and manufacturing recycled cathode active materials using its patented Hydro-to-Cathode technology. It is expanding its US manufacturing capacity to 30,000 metric tons per year by 2022 and plans global capacity of 150,000 metric tons per year by 2026. Its Hydro-to-Cathode process directly converts battery materials into new cathode active materials, creating more value from recycling than traditional methods and providing a more sustainable solution for battery materials.
The document provides an overview of electric vehicle charging standards. It discusses what standards are and how they are developed through consensus among technical experts. The most important international charging standards are described, including modes for conductive charging (Modes 1-4), wireless charging, and battery swapping. Key safety standards are outlined that cover different aspects of the conductive charging system from the grid to the vehicle. Broader standards relating to electric vehicles, communication, and security are also listed. Details are provided on the requirements and tests specified in the main conductive charging standard IEC 61851-1. The document concludes with discussing installation standards.
Required ISO 50001-2018 documents for energy management systemGlobal Manager Group
The latest version of ISO 50001 published on August, 2018 and transition from the previous version is ahead. One of the most important steps in the transition process, as well as in the initial implementation, is determining what documents are needed for an effective Energy Management System (EnMS) based on ISO 50001:2018. This publication designed to understand mandatory ISO 50001 documents requirements as per latest standard ISO 50001:2018.
For more details visit our website: https://www.globalmanagergroup.com/
Battery Circular Economy approaches for redesign, reuse and regulationOlgaRodrguezLargo
This document discusses second life applications for electric vehicle batteries. It notes that as electric vehicle adoption increases, there will be a large number of used EV batteries available for reuse. The document outlines some of the challenges in reusing these batteries, such as developing safe and standardized dismantling and testing procedures. It also discusses requirements for adapting used EV batteries for new applications, such as modifying battery management systems and electrical connections. The document provides examples of second life battery applications and considerations for matching batteries to new uses.
The document discusses ISO 50001, an international standard for energy management systems. It provides an overview of ISO as an organization, outlines the key components and requirements of ISO 50001, and explains how the standard was developed to help organizations improve energy performance and reduce costs through establishing energy management strategies. The standard provides a framework to help set energy policies, objectives, and improvement plans using a plan-do-check-act model.
Practical approach of ENERGY MANAGEMENT to sustain profitabilityZAINI ABDUL WAHAB
This document summarizes a seminar on energy efficiency for sustainable business. The seminar covered corporate trends and potentials for energy savings to increase profitability, barriers to implementing energy efficiency measures and how to overcome them, key success factors and steps to reduce energy costs, and support needed from the government. Surveys showed that sustainability is increasingly important to businesses and investors. Implementing energy efficiency measures can help businesses reduce costs and boost their image while helping the environment. Barriers to energy efficiency include lack of funding and technical expertise. Adopting an energy management system and clear energy policy can help businesses implement effective energy efficiency projects and achieve sustainable energy savings.
This document provides guidance on implementing ISO 50001, the international standard for Energy Management Systems. It begins with an introduction to ISO 50001, outlining its development and purpose. The main benefits of implementation are then summarized, including cost reduction, reducing energy consumption, improving carbon footprint, and enhancing organizational engagement and reputation. Key aspects of the standard like the Plan-Do-Check-Act cycle and risk-based thinking are explained. An overview is also given of each section of ISO 50001, covering topics like leadership, planning, performance evaluation, and continual improvement.
The ISO 50001 Certification and energy management system help organization to increase energy efficiency in the work area as well as reducing energy costs in manufacturing industries. Energy Management System and ISO 50001 certification consultancy company had helped many global clients for implementation of EnMS to achieve ISO 50001 certification by promote energy management best practices and reinforce good energy management behaviors.
E-mobility | Part 2 - Battery Technology & Alternative Innovations (English)Vertex Holdings
Today, 60% of electric vehicles (EVs) are powered by lithium-ion batteries (LIBs) due to its efficiency, high power-to-weight ratio and flexibility to allow chemical alterations. As the EV industry gains steam, supply chain and design challenges are spurring battery manufacturers to explore alternatives.
Some of the alternative battery technologies include lithium-iron phosphate (LFP), lithium-sulfur battery (LSB) and sodium-ion battery (SIB). Besides LFP, LSB and SIB, solid-state batteries (SSBs) are touted as a forerunner for the next-generation battery technology.
Despite these advancements, the current speed of innovation is not accelerating fast enough to meet the demands of the rapidly growing EV sector. This presents opportunities in areas such as battery design and securing the supply chain locally via vertical integration.
As the world welcomes green mobility, commercializing battery technology will be imperative to drive global EV adoption. Given the increased push for battery development and innovation, we believe that it’s only a matter of time before supply catches up with demand.
Find out more here: https://bit.ly/3HUaf1Z
THE ALL-SOLID-STATE LITHIUM-ION BATTERY FACTORYiQHub
Ilika was founded in 2004 at the University of Southampton. Between 2004-2018, they engaged in developing novel materials with commercial partners. They went public on the London Stock Exchange in 2010. In 2018, they began developing solid-state battery technology for electric vehicles and received government grants totaling $10 million. Their technology uses oxide-based solid electrolytes and they are working to commercialize the technology starting in 2023 through partnerships with automakers.
2018 sees the release of the latest version of the international standard for Energy Management, ISO 50001. The panel briefly covers the main changes to the standard, but the main focus is on what organisations should take into account when considering the certification.
This session provides teachers with guidance on teaching English pronunciation. It discusses what aspects of pronunciation to teach, such as vowels, consonants, stress, and intonation. Techniques for teaching pronunciation are presented, including listening discrimination, description/analysis of sounds, controlled practice like repetition, and communicative practice like role plays. Principles for effective pronunciation teaching emphasize perception before production, integrating it with other skills, and making it student-centered. Assessment involves identifying learner needs, ongoing feedback, and self/peer monitoring. The key is giving learners plenty of practice in a relaxed environment.
Manila Board of Realtros Inc. 2014 MagazineMarho Realty
The document summarizes the activities and committees of the Manila Board of Realtors (MBR) in 2014. It discusses the MBR's standing committees and their directors in charge. It also lists the MBR's approved working committees for 2014 and their activities, including leadership seminars, general membership meetings, MLS exchanges, joint MLS with other boards, and sports tournaments. Finally, it recognizes MBR members who took on leadership roles in the national realtors association PAREB in 2015.
The document summarizes arguments for keeping music in schools. It provides evidence that music education improves academic performance, brain development, discipline, and focus. Studies show students with music training score higher on tests and use more of their brain. When one struggling school replaced security guards with art teachers, discipline and test scores dramatically improved. The document concludes with a 3-point plan to take responsibility, start petitions, and get donations to advocate for restoring funding for music programs.
News Headlines for may 28, 2014. Headlines.am is the world's first infographic news website - visualizing the days
important headlines and helping you stay up to date and engaged in an increasingly busy world. Each day start your
morning with an infographic from Headlines.am. Visit http://www.headlines.am to learn more.
CYS EN ISO 50001 is Proven to Generate Significant Energy Savings! (Part 1 of 3)Arantico Ltd
This presentation, the first in a three part series was presented by Dr. Mike Brogan, COO of Enerit (www.enerit.com) at a seminar entitled CYS EN ISO 50001 in Cyrpus in April 2014.
The presentation covers the following areas;
*What is Systematic Energy Management?
Proven Benefits
*Main Requirements of CYS EN ISO 50001
*Implementation of CYS EN ISO 50001 Energy Management System
*Case Studies
*How ICT Helps
*How do I get started?
*Where am I now?
*And what do I do next?
ISO 50001:2018 is the newly revised international standard for Energy Management providing the most robust framework for optimizing energy efficiency in public and private sector organizations.
ISO 50001 certification demonstrates an organization’s commitment to continual improvement in energy management, allowing them to lead by example within their respective industries and ensure related legislative and regulatory requirements are met.
This implementation guide will help you run through the benefits, PDCA Cycle, Annex SL structure in detail for implementing ISO 50001.
Find out more or get a quote for certification here – https://www.nqa.com/en-gb/certification/standards/iso-50001
The document provides guidance on implementing an Energy Management System certified to ISO 50001:2018. It discusses the benefits of certification, which include cost reduction, reducing energy consumption and carbon footprint, regulatory compliance, and improved reputation. It also covers key aspects of the standard like the Plan-Do-Check-Act cycle and risk-based thinking. Sections of the standard are briefly outlined and implementation best practices are suggested.
This document discusses ISO 50001 Energy Management System Certification. It provides an overview of ISO 50001, which was published in 2011 by the International Organization for Standardization to enable organizations to improve their energy performance through measurable results related to energy efficiency, use, and consumption. Certifiers look to see if organizations have conducted an energy review, established performance indicators and improvement objectives, and gained management support. Certification can help organizations save energy and money, reduce their carbon footprint, and improve operational efficiencies.
ISO 50001 An Answer to Jamaica's Energy CrisisPhillip Thomas
ISO 50001 is a new ISO standard that can bring significant benefits to Jamaica and other Caribbean countries. This presentation is an effort to highlight the benefits that it can bring and to stimulate interest in what might soon become an international trade and commerce requirement
The document discusses ISO 50001/BS EN 16001, an energy management standard that provides a framework to help organizations improve energy efficiency through a systematic plan-do-check-act approach. Key elements include establishing an energy policy, identifying significant energy uses, setting objectives and targets, implementation plans, training, documentation, audits, and management reviews. Certification can help organizations save money, reduce emissions, and improve competitiveness through more effective energy management. Lakshy Management Consultant offers consulting, training, and certification services to help clients achieve ISO 50001/BS EN 16001 certification.
Iso international organization for standardizationJeny Jose
The document discusses ISO 14001, an international standard for environmental management systems. ISO 14001 provides a framework for organizations to manage their environmental responsibilities and impacts in a systematic way. It helps organizations improve their environmental performance, fulfill compliance obligations, and achieve financial and market benefits. The 2015 version of ISO 14001 expanded its coverage of topics such as leadership engagement, risk management, and life cycle perspectives. Organizations can get certified to ISO 14001 by developing an environmental management system, undergoing a third-party audit, and demonstrating conformance to the standard's requirements.
The document summarizes the work of the Energy Management Working Group (EMWG) which aims to accelerate adoption of energy management systems like ISO 50001. It discusses four key principles for ISO 50001 success: 1) ISO 50001 provides a framework for measuring climate impacts, 2) Qualified ISO 50001 professionals maximize impacts, 3) Robust certification strategies support consistent outcomes, and 4) International input strengthens the standards. It encourages actions like using qualified professionals, accredited certification bodies, and joining the EMWG's campaign to drive 50,000 ISO 50001 certifications by 2020.
ISO 14000 is a family of standards related to environmental management. It provides guidance for organizations to minimize environmental impacts, comply with regulations, and continually improve environmental performance. The standards cover environmental management systems, auditing, labeling, and life cycle analysis. Key elements of an environmental management system include identifying environmental impacts, setting objectives and targets, defining roles and responsibilities, training, documentation, audits, management reviews, and continual improvement. An example is provided of Honeywell's efforts to improve environmental performance through programs to reduce releases, manage wastes, and save energy.
ISO 50001 - The Energy Management JourneyArantico Ltd
A presentation by Dr. Mike Brogan about Enerit's experience with customer ISO 50001 EnMS implementations and present some case studies. ICT tools help to remove some of the pain and anxiety of implementing and maintaining ISO 50001. Mike was recently asked by an energy manager , "We have ISO 50001 what’s next?" and that is the reason for title of the presentation – it is a journey.. Regarding the ISO 50001 standard itself, a customer admitted to Mike that they had only recently read the standard properly and concluded (first that it was not very long) but more importantly that it made excellent sense and sorry he had not read it sooner.. So Mike's my advise is read the standard…
Pe 6421 chapter 3 iso 9000 quality system oct 13 2014Charlton Inao
This document provides an overview of ISO 9000 quality standards. It begins with an introduction to ISO and the history and benefits of the ISO 9000 family of standards. The core standards - ISO 9000, 9001, 9004 and 19011 - are described. Key requirements of ISO 9001:2008 are outlined, including the quality management principles of customer focus, leadership, engagement, process approach, system approach, continual improvement, evidence-based decision making and mutually beneficial supplier relationships. The document then covers quality system documentation and auditing requirements. It concludes with an outline of the course contents to help participants understand and implement an ISO 9001 compliant quality management system.
This document provides a comprehensive guide to BSI's certification schemes and services. It outlines 10 reasons to choose BSI, including their global network, over 100 years of experience in standards development, and commitment to continual improvement. The guide also details BSI's portfolios for performance, sustainability, risk, medical devices, Entropy software, key business sectors, and themes. Sections provide information on individual certification schemes including ISO 9001, ISO 14001, ISO 27001, and standards for various industries such as aerospace, automotive, oil and gas.
ISO (the International Organization for Standardization) is a worldwide federation of national
standards bodies (ISO member bodies). The work of preparing International Standards is
normally carried out through ISO technical committees. Each member body interested in a
subject for which a technical committee has been established has the right to be represented on
that committee. International organizations, governmental and non-governmental, in liaison
with ISO, also take part in the work. ISO collaborates closely with the International
Electrotechnical Commission (IEC) on all matters of electrotechnical standardization.
International Standards are drafted in accordance with the rules given in the ISO/IEC
Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International
Standards adopted by the technical committees are circulated to the member bodies for voting.
Publication as an International Standard requires approval by at least 75 % of the member
bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this document may be the
subject of patent rights. ISO shall not be held responsible for identifying any or all such patent
rights.
ISO 16059 was prepared by Technical Committee ISO/TC 106, Dentistry, Subcommittee
SC 3, Terminology.
Developing Effective Energy Performance IndicatorsPECB
The primary goal of businesses is to balance profit-making objectives with the interests of parties affected by it. The amount of profit that businesses can generate depends on how well they control their costs. There are many costs with which businesses deal with, but energy costs remain among the most significant for many of them. The industrial sector is one of the largest energy consumers. Companies are constantly seeking innovative ways on how to spend the energy more efficiently. The standard that is widely being used to reduce energy costs is ISO 50001 or the Energy Management System (EnMS). ISO 50001 was developed by the International Organization for Standardization (ISO) with the aims at improving organization’s energy performance.
Introduction About ISO Certificates - Eng. Mohamed Abazamilemadinah
The document summarizes the history and development of ISO (International Organization for Standardization) over the past 70 years since its founding in 1947. It began with 65 delegates from 25 countries who decided to create a new international organization to facilitate the coordination and unification of industrial standards. Over the decades, ISO has grown to include 163 members and over 21,000 standards covering almost all aspects of technology and business. Some of ISO's most well-known and widely implemented standards are ISO 9001 for quality management, ISO 14001 for environmental management, and ISO 45001 for occupational health and safety management. The document also provides an overview of ISO's standards development process and outlines some of the key economic and non-economic benefits that organizations can
ISO 45001:2018 is the world’s first occupational health and safety (OH&S) international standard. This new standard replaces the old OHSAS 18001:2007.
ISO 45001 helps your organization provide a safe and healthy workplace for your employees and other people, prevent deaths, work-related injury and ill-health as well as continually improve OH&S performance.
This ISO 45001 awareness PPT presentation can be used to brief your employees, new hires and potential auditees so as to create awareness of the OH&S standard. Alternatively, the presentation may be used to supplement your materials for the training of OH&S professionals and internal auditors.
It covers the what and why of ISO 45001, the OH&S clause structure, and also offers practical tips on how to handle an audit session. When you are done teaching this material to your employees, they will be much more informed and comfortable with ISO 45001.
LEARNING OBJECTIVES
1. Provide background knowledge on ISO 45001
2. Gain an overview of ISO 45001 structure
3. Understand the ISO 45001 certification process
4. Gather useful tips on handling the audit session
To download this presentation, visit:
https://www.oeconsulting.com.sg/training-presentations
Referencing IEC and ISO Standards in Public PolicySoe Hein Kyaw
Brief Introduction on How Countries use IEC (International Electrotechnical Commission)/ISO (International Organization for Standardization) for their Public Policies.
Methods of Referencing IEC/ISO by Policy Makers
Consideration to use IEC and ISO for Public Policy
Advantages & Benefits of Referencing IEC/ISO for Public Policy
Examples of Countries referencing ISO/IEC such as JAPAN, USA, MEXICO, CHINA
ISO 50001 Presentation by Enerit at Industrial Energy Technology Conference 2015Arantico Ltd
Enerit, CEO, MIke Brogan presented at the Industrial Energy Technology Conference (IETC 2015) recently in New Orleans, USA. he presentation concentrated on the ISO 50001 Energy Planning process and why it is important the proper tools are used for carrying out energy review, identifying improvement opportunities and implementing a systematic approach for setting targets and prioritizing energy efficiency projects.
The IETC is hosted by the Energy Systems Laboratory at Texas A&M University and the Louisiana Department of Natural Resources. It is a one-of-a kind conference featuring a topics important to industrial energy managers, utility experts, government program managers, vendors and others.
This document discusses the ISO 50001 energy management standard. It provides background on ISO management system standards and their common elements, which are based on the PDCA (plan-do-check-act) model of continual improvement. The key points made are:
1) ISO 50001 provides a structured, globally accepted approach to energy management based on other ISO standards like ISO 9001 and ISO 14001.
2) ISO is revising all management system standards to a uniform high-level structure, which will improve results and harmonize standards.
3) Common elements of ISO standards include responsibility, training, documentation, audits, and management review to ensure continual improvement.
This document provides information about several important ISO standards:
- ISO is an international organization that develops voluntary consensus-based standards to support innovation and address global challenges. It has published over 21,000 standards covering many industries.
- Key ISO standards discussed include those related to quality management (ISO 9000), country codes (ISO 3166), social responsibility (ISO 26000), energy management (ISO 50001), risk management (ISO 31000), food safety (ISO 22000), information security (ISO 27001), occupational health and safety (ISO 45001), anti-bribery systems (ISO 37001), and medical devices (ISO 13485).
- The standards provide requirements and guidance for organizations to ensure quality, safety
Presented by The Global Peatlands Assessment: Mapping, Policy, and Action at GLF Peatlands 2024 - The Global Peatlands Assessment: Mapping, Policy, and Action
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The popularity of functional foods among scientists and common people has been increasing day by day. Awareness and modernization make the consumer think better regarding food and nutrition. Now a day’s individual knows very well about the relation between food consumption and disease prevalence. Humans have a diversity of microbes in the gut that together form the gut microflora. Probiotics are the health-promoting live microbial cells improve host health through gut and brain connection and fighting against harmful bacteria. Bifidobacterium and Lactobacillus are the two bacterial genera which are considered to be probiotic. These good bacteria are facing challenges of viability. There are so many factors such as sensitivity to heat, pH, acidity, osmotic effect, mechanical shear, chemical components, freezing and storage time as well which affects the viability of probiotics in the dairy food matrix as well as in the gut. Multiple efforts have been done in the past and ongoing in present for these beneficial microbial population stability until their destination in the gut. One of a useful technique known as microencapsulation makes the probiotic effective in the diversified conditions and maintain these microbe’s community to the optimum level for achieving targeted benefits. Dairy products are found to be an ideal vehicle for probiotic incorporation. It has been seen that the encapsulated microbial cells show higher viability than the free cells in different processing and storage conditions as well as against bile salts in the gut. They make the food functional when incorporated, without affecting the product sensory characteristics.
Optimizing Post Remediation Groundwater Performance with Enhanced Microbiolog...Joshua Orris
Results of geophysics and pneumatic injection pilot tests during 2003 – 2007 yielded significant positive results for injection delivery design and contaminant mass treatment, resulting in permanent shut-down of an existing groundwater Pump & Treat system.
Accessible source areas were subsequently removed (2011) by soil excavation and treated with the placement of Emulsified Vegetable Oil EVO and zero-valent iron ZVI to accelerate treatment of impacted groundwater in overburden and weathered fractured bedrock. Post pilot test and post remediation groundwater monitoring has included analyses of CVOCs, organic fatty acids, dissolved gases and QuantArray® -Chlor to quantify key microorganisms (e.g., Dehalococcoides, Dehalobacter, etc.) and functional genes (e.g., vinyl chloride reductase, methane monooxygenase, etc.) to assess potential for reductive dechlorination and aerobic cometabolism of CVOCs.
In 2022, the first commercial application of MetaArray™ was performed at the site. MetaArray™ utilizes statistical analysis, such as principal component analysis and multivariate analysis to provide evidence that reductive dechlorination is active or even that it is slowing. This creates actionable data allowing users to save money by making important site management decisions earlier.
The results of the MetaArray™ analysis’ support vector machine (SVM) identified groundwater monitoring wells with a 80% confidence that were characterized as either Limited for Reductive Decholorination or had a High Reductive Reduction Dechlorination potential. The results of MetaArray™ will be used to further optimize the site’s post remediation monitoring program for monitored natural attenuation.
Evolving Lifecycles with High Resolution Site Characterization (HRSC) and 3-D...Joshua Orris
The incorporation of a 3DCSM and completion of HRSC provided a tool for enhanced, data-driven, decisions to support a change in remediation closure strategies. Currently, an approved pilot study has been obtained to shut-down the remediation systems (ISCO, P&T) and conduct a hydraulic study under non-pumping conditions. A separate micro-biological bench scale treatability study was competed that yielded positive results for an emerging innovative technology. As a result, a field pilot study has commenced with results expected in nine-twelve months. With the results of the hydraulic study, field pilot studies and an updated risk assessment leading site monitoring optimization cost lifecycle savings upwards of $15MM towards an alternatively evolved best available technology remediation closure strategy.
Kinetic studies on malachite green dye adsorption from aqueous solutions by A...Open Access Research Paper
Water polluted by dyestuffs compounds is a global threat to health and the environment; accordingly, we prepared a green novel sorbent chemical and Physical system from an algae, chitosan and chitosan nanoparticle and impregnated with algae with chitosan nanocomposite for the sorption of Malachite green dye from water. The algae with chitosan nanocomposite by a simple method and used as a recyclable and effective adsorbent for the removal of malachite green dye from aqueous solutions. Algae, chitosan, chitosan nanoparticle and algae with chitosan nanocomposite were characterized using different physicochemical methods. The functional groups and chemical compounds found in algae, chitosan, chitosan algae, chitosan nanoparticle, and chitosan nanoparticle with algae were identified using FTIR, SEM, and TGADTA/DTG techniques. The optimal adsorption conditions, different dosages, pH and Temperature the amount of algae with chitosan nanocomposite were determined. At optimized conditions and the batch equilibrium studies more than 99% of the dye was removed. The adsorption process data matched well kinetics showed that the reaction order for dye varied with pseudo-first order and pseudo-second order. Furthermore, the maximum adsorption capacity of the algae with chitosan nanocomposite toward malachite green dye reached as high as 15.5mg/g, respectively. Finally, multiple times reusing of algae with chitosan nanocomposite and removing dye from a real wastewater has made it a promising and attractive option for further practical applications.
Climate Change All over the World .pptxsairaanwer024
Climate change refers to significant and lasting changes in the average weather patterns over periods ranging from decades to millions of years. It encompasses both global warming driven by human emissions of greenhouse gases and the resulting large-scale shifts in weather patterns. While climate change is a natural phenomenon, human activities, particularly since the Industrial Revolution, have accelerated its pace and intensity
ENVIRONMENT~ Renewable Energy Sources and their future prospects.tiwarimanvi3129
This presentation is for us to know that how our Environment need Attention for protection of our natural resources which are depleted day by day that's why we need to take time and shift our attention to renewable energy sources instead of non-renewable sources which are better and Eco-friendly for our environment. these renewable energy sources are so helpful for our planet and for every living organism which depends on environment.
1. Copyright 2011 EnMS-Doc Associates All Rights Reserved.
Practical Guide
to
ISO 50001
Energy Management System
Prepared by EnMS-Doc Associates
27th July 2011
Revision 2
Permission to use extracts from ISO 50001 was provided by Standards Council of Canada.
2. 2
What is ISO
ISO is the world largest standards developing organization.
ISO has published more than 18,500 International Standards
An acronym "ISO" was chosen deriving from the Greek isos,
meaning "equal" ( Whatever the country, whatever the language, the
short form of the organization's name is always ISO)
Summary of ISO was referenced from ISO website, page “Discover ISO”:
http://www.iso.org/iso/about/discover-iso_isos-name.htm
International Organization for Standardization
Established in 1947
(Ranging from standards for activities such as agriculture and construction, through
mechanical engineering, to medical devices, to the newest information technology
developments )
3. The ISO brand
Democratic
Voluntary
Market-driven
Consensus
Globally relevant
Each country is on an equal footing to influence the direction of ISO's work
ISO standards are voluntary: ISO itself does not regulate or legislate
ISO only develops standards for which there is a market requirement
ISO standards are based on international consensus by requiring a periodic
review of its standards at least every five years
ISO standards are technical agreements which provide the framework for
compatible technology worldwide
3
4. 4
Membership of ISO is open to national standards institutes most
representative of standardization in their country
(one member in each country)
Who can join ISO
Some of 110 member bodies are:
Brazil (ABNT) Associação Brasileira de Normas Técnicas
Canada (SCC) Standards Council of Canada
China (SAC) Standardization Administration of China 国家标准化管理委员会
Germany (DIN) DIN Deutsches Institut für Normung
Japan (JISC) Japanese Industrial Standards Committee 日本工業標準調査会
Thailand (TISI) Thai Industrial Standards Institute
USA (ANSI) American National Standards Institute
United Kingdom (BSI) British Standards Institution
…and
42 correspondent members (observer role thus no voting rights)
10 subscriber members (countries with very small economies wishing to
maintain contact)
5. What benefits ISO provides
5
• development, manufacturing and supply of products and services more
efficient, safer and cleaner
• technical base for health, safety and environmental legislation, and
conformity assessment
For government sectors
For businesses
• facilitates trade between countries and make it fairer
For consumers
• assurance of quality, environmental friendliness, safety, efficiency and
interchangeability at an economical cost wherever in the world you are
• shares technological advances and good management practice
For customers
• a broader choice of offers world-wide, and benefitting from competition
For everyone
• quality of life in general by ensuring that the transport, machinery and
tools we use are safe and cleaner
For the planet
• quality of air, water and soil, reducing emissions of gases/radiation and
promoting green products for preserving the environment
6. Path to become ISO standard
6
Industry or business sector
Requirement for standard
ISO's national member
Council
Technical Committee (TC)
Sub Committee (SC)
Standard Development
New work item
Proposal
TC/SC & Working group
WD DIS FDIS
review
comments
review
comments
review
comments
VOTEVOTE
Int’l
Standard
Published
Representing ISO’s national members
CD
review
comments
VOTE
Publication as an
International
Standard
requires approval
by at least 75 %
of the member
bodies casting a
vote.
NP
7. ISO 9001/ISO 14001/ISO 50001
What is different from others
7
"Generic" means that the same standard can be applied to any
organization, large or small, whatever its product or service, in any sector of
activity, and whether it is a business enterprise, a public administration, or a
government department.
The vast majority of ISO standards are highly specific to a
particular product, material, or process
ISO 9001 (quality),ISO 14001 (environment) and ISO 50001
(energy) are "generic management system standards"
ISO 9001 Quality Management System
ISO 14001 Environment Management System
ISO 50001 Energy Management System
Generic sets of
requirements
to implement
• Having organisations in more than one country, a single, harmonized
standard for implementation across the organization
8. ISO 50001
8
• Encourages organizations to better utilize existing energy consuming facilities,
thus reducing operational costs and/or expanding business capacity
• Have a framework to encourage suppliers and customer to better manage their
energy, thus promoting energy efficiency throughout the supply chain
• Properly run operational management system that promotes sustainable
business development
Produce the best quality product on account of least energy consumption
ISO 50001 International EnMS Standard guides you to:
• Defines organisations and companies to have a well-recognized framework
for integrating energy efficiency into their management practices
• Have the strong top management involvement & leadership in EnMS operation
• Have the top management to appoint a management representative from
higher management level to manage cross over organisation
Differentiation Factors to ISO 9001/ISO 14001
• Imposes “DATA” oriented management practices, thus focuses on
performances
9. ISO 50001
Key differentiation Factors to ISO 14001
9
Proclamation of Independence !!
Energy management has always been a part of ISO 14001
• Improve energy performance has always been positive environmental aspects
• To ensure sustainable business development for a long range survival
• Energy management as a component of carbon emission reduction projects
Inevitable birth of ISO 50001 due to market needs
• Recognition of PDCA ensuring continual improvement
• Most businesses are to generate energy or some sorts of energy for clients,
thus energy management is being recognised as business management
Generate the best quality energy for clients on account of least energy consumption
Energy management: nothing to lose, only to gain
• ISO 50001 certification is not about nonconformity prevention but to
demonstrate superiority of your business
• EnMS that generates data for measuring “PERFORMANCES”
• EnMS audit examines if energy performance improved, and objectives and
targets achieved
10. 10
EnMS performances are A + B of the following:
A. Performance of EnMS itself :
standard management performance
Why ISO 50001 EnMS is attractive?
(1) “DATA” Oriented Management System!!
Evaluation of energy “PERFORMANCE” can be measured and quantified by the “DATA”
(2) Managing with EnMS performances
B. Energy Performance :
performance managed with data
such as EnPI
(3) Practicality
Regardless of the size and type of organisation, regardless of if you are
subscribing to the national or local requirements, “data” and “performance”
based management method can be properly blended into your operation.
Continual Improvement Process (PDCA)
EnMS Performance
Energy
Performance
Management
Performance
ISO 9001
ISO 14001
Generic
11. ISO 50001 Birth Passage
11
Establishment of PC242 February 2008
Secretariat: ANSI (U.S.A.) & ABNT (Brazil)
Working Draft Approved Winter 2008
Committee Draft Approved Summer 2009
Draft International Standard version Approved Summer 2010
Final Draft International Standard version Approved Spring 2011
ISO 50001 International Standard EnMS Published 15 June 2011
43 participating countries such as Australia (AS), Canada (SCC), China (SAC),
Germany (DIN), India (BIS), Japan (JISC), Russian Federation (GOST R),
South Africa (SABS), Thailand (TISI), United Kingdom (BSI), etc.
13 observing countries
12. ISO 50001 International Standard on Energy Management System
12
Contents Remarks
Forward
Introduction
1. Scope
2. Normative references
3. Terms and definitions
4. EnMS Requirements
Annex A Guidance on the use of Clause 4
4.1 General requirements
4.2 Management responsibilities
4.3 Energy Policy
4.4 Energy Planning
4.5 Implementation and operation
4.6 Checking (performance)
4.7 Management Review
Strictly informative guide to ensure a proper understanding
and appreciation of the contents in Clause 4
About ISO and positioning of the document
Summary of the standard in this document
Scope: Specifying requirements for EnMS
Any references to make this document valid
Terms and definitions used in this document
Defining the requirements of ISO 50001
Establish
EnMS
Scope and Boundaries
How it will meet the requirements
Define
Determine
to achieve continual improvement
of energy performance
Maintain
Document
Implement
13. 13
Conceptual Business Flow of EnMS
Excerpt form “ISO 50001:2011(E)” page vi
Monitoring,
measurement and
analysis
Internal audit of
the EnMS
Management
review
Planning
Energy policy
Implementation
and operation
Continual
improvement
Nonconformities,
correction, corrective and
Preventive actions
Checking
15. 15
What is “ISO 50001 Compliance”
Establish guideline and provisions for EnMS operation
following ISO 50001
Operate business under the established EnMS
following ISO 50001
Verify if you operate business under established EnMS
in conformance to ISO 50001
Clause 4, Sub-clause 4.1 - 4.3
Clause 4, Sub-clause 4.4 & 4.5
Clause 4, Sub-clause 4.6
Verification is done by
actual result written in reports and records as evidences
against written guidelines and provisions, procedures and plans
Therefore, documentation is the most important aspect to consider
when one seeks efficient operation of EnMS compatible to ISO 50001
report the result of verification at Management review
Clause 4, Sub-clause 4.7
16. 16
ISO 50001 Requirements & Interpretation
Clause 4. EnMS requirements
4.1 General requirements
Document
Maintain
Implement
Establish
EnMS
Scope and Boundaries
How it will meet the requirements
Define
Determine
to achieve continual improvement of
energy performance
17. 17
Clause 4. EnMS requirements
4.2 Management Role
4.2.1 Top management commitment
4.2.2 Management representative
EnMS Champion
Energy Policy
Performance ownership
Management Review
Provide resources
Scope & Boundary
Disseminate EnMS
EnPI assessmentPlanning initiative
Fair evaluation
Top Management
EnMS Owner
EnMS Champion
EnMS Operation Committee
authorizes
Reports performance
• Organise the operation unit
• Define roles & responsibility
Appoints &
Directs energy management activities
• Appoint members
Management rep.
Energy management team
ISO 50001 Requirement Summary & Interpretation
18. 18
Clause 4. EnMS requirements
4.3. Energy Policy
Coherent with the nature
and scale of, and impact
on, the organization's
energy use
Commitment to continual
improvement in energy
performance
Commitment to ensure
the availability of
information and of
necessary resources to
achieve objectives and
targets
Commitment to comply
with applicable legal and
other requirements
Framework for setting
and reviewing energy
objectives and target
Supports the purchase of
energy efficient products
and services
Documented,
communicated, and
understood within the
organization
Periodically reviewed,
and updated as necessary
Name of Top Management
“Energy Policy” Template (EnMS-Policy-M01E)
ISO 50001 Requirement Summary & Interpretation
19. 19
Clause 4. EnMS requirements
4.4. Energy Planning
4.4.1 General
A.4.1 Energy Planning Process Concept Diagram
Excerpt form “ISO 50001:2011 (E)” page 16
Energy Planning Process
ISO 50001 Requirement Summary & Interpretation
20. 20
4.4. Energy Planning
ISO 50001 Requirement Summary & Interpretation
Sample of applying Energy Planning Process Concept
“EnMS Energy Review Report” Guidebook+t (EnMS-EnRev.Rep-M01E)
Reference: “ISO/DIS 50001(E)” page 14
21. 21
Clause 4. EnMS requirements
4.4. Energy Planning
4.4.3 Energy Review
a) Analyze energy use based on measurement and other data
b) Based on energy use analysis, identify the areas of significant energy use and consumption
c) Identify, prioritize, and record opportunities for improving energy performance, including,
where applicable, potential energy sources, use of renewables, or alternative energy
sources
Fig. Sample-1 Fig. Sample-2
Energy Conservation Opportunity
Excerpt form “Energy Review Report” Guidebook+t (EnMS-EnRev.Rep-M01E)
“EnMS Energy Review Report” Guidebook+t (EnMS-EnRev.Rep-M01E)
ISO 50001 Requirement Summary & Interpretation
22. 22
Clause 4. EnMS requirements
4.4. Energy Planning
4.4.3 Energy Review
The energy review shall be updated at defined intervals and in response to major
changes in facilities, equipment, systems or processes.
Energy review shall be planned, implemented documented reported. Energy review is to
define baseline and target after identifying energy conservation opportunities (ECOs),
and will be used as one of evidences for quantifying energy performance improvements.
“EnMS Energy Review Report” Guidebook+t (EnMS-EnRev.Rep-M01E)
ISO 50001 Requirement Summary & Interpretation
23. 23
Clause 4. EnMS requirements
4.4. Energy Planning
4.4.4 Energy baseline
4.4.5 Energy performance indicators (EnPIs)
4.4.6 Energy objectives, energy targets and energy management action plans
From the energy review, energy baseline & EnPI shall be recorded for saving target
Fig. Sample-1
From the energy review, objectives, targets and action plan shall be consolidated in a plan
Excerpt form “Monitoring & Action Guideline” Guidebook+t (EnMS-Monitor.Gdln-M01E)
Action name Objectives By whoTargets By when
Product line
Change
Enhancement
• Close the comp. air valve
• Review washing cycle
• Reduce detergent for shorter rinse
Reduce power by
720,000kWh
Cost red. 3.3 %
CO2 emit. Red.
400 t-CO2
Prod.#1
Manager
End March,
2012
Fig. Sample-2
“Monitoring & Action Guideline” Guidebook+t (EnMS-Monitor.Gdln-M01E)
ISO 50001 Requirement Summary & Interpretation
24. 24
4.5. Implementation and operation
Clause 4. EnMS requirements
4.5.1 General
4.5.2 Competence, training
and awareness
4.5.3 Communication
4.5.5 Operational control
4.5.4 Documentation
4.5.6 Design
4.5.7 Procurement of
energy services,
products, equipment
and energy
4.4.3 Energy Review
4.4.4 Energy baseline
4.4.5 Energy performance
indicators (EnPIs)
4.4.6 Objectives, targets
and action plan
4.4.2 Legal and other
requirements
1) Apply additional 6 elements in establishing the plan
2) Implement and operate in accordance with the
established plan
“EnMS Action Plan” Guidebook+t (EnMS-Audit.Plan-M01E)
ISO 50001 Requirement Summary & Interpretation
25. 25
4.5. Implementation and operation
Clause 4. EnMS requirements
4.5.2 Competence, training and awareness
Competence
EnMS ensures any person or persons working for, or on its
behalf related to significant energy uses are competent on the
basis of appropriate education, training, skills or experience.
Training
EnMS shall identify training
needs associated with the
control of its significant
energy uses and its operation
Awareness
EnMS ensures that persons working for or on its behalf are and
remain aware of:
1) The importance of conformity with the energy policy, procedures and
with the requirements of the EnMS
2) Their roles, responsibilities and authorities in achieving the
requirements of the EnMS
3) The benefits of improved energy performance
4) The importance of achieving energy objectives and targets, and the
consequences of departure from specified procedures
• Workshop
• External training
• Internal training
• Seminar
• Etc.
“EnMS Training Plan” Guidebook+t (EnMS-Training.Plan-M01E)
ISO 50001 Requirement Summary & Interpretation
26. 26
4.5. Implementation and operation
Clause 4. EnMS requirements
4.5.3 Communication
a) Energy Performance & EnMS Operation Communication
b) Awareness and Motivational Communication
c) External Communication on EnMS
• EnMS site and
monitoring system links
from company portal site
• EnMS proprietary bulletin boards
• Morning meetings
• Training sessions
• Motivation and incentive program
• Suggestion Box
Etc.
• Press release • Company newsletter • Factory tour • CSR report
• Web: contact us • Community activities
Fig. Sample
“EnMS Communication Guideline” Guidebook+t (EnMS-Comm.Gdln-M01E)
Examples can be…
ISO 50001 Requirement Summary & Interpretation
27. 27
4.5. Implementation and operation
Clause 4. EnMS requirements
4.5.4 Documentation
4.5.4.1 Documentation Requirements 4.5.4.2 Control of Documents
Procedure for
documents after
released
Guideline for
creating
documents
Scope &
boundary Energy Policy
Plan to
achieve EnMS
targets
…. and any other
documents considered
necessary for ensure
proper operation of
EnMS
“EnMS Document Management Guideline” Guidebook+t (EnMS-Doc.Mgmt.Gdln-M01E)
ISO 50001 Requirement Summary & Interpretation
28. 28
4.5. Implementation and operation
Clause 4. EnMS requirements
4.5.5 Operational control
EnMS Charter
Sets a general guideline
and provision for overall
EnMS operation
Guidelines,
Plans,
Reports, etc.
Procedures
… and other documents considered necessary
… and other documents considered necessary
• Document Management
• Energy Policy• Energy review plan & report
• Training plan & report
• Monitoring & Action Guideline
• Audit plan & report
• Procurement Guideline
• Facility-Equipment List
• Continual Improvement Guideline
• Communication Guideline
• Management Review
• Monitoring & action
• Cooling Tower operation
• Continual Improvement
• Boiler operation
• Chiller operation • Power Substation operation
• Compressed Air operation
• Lighting
• Power Generator operation
• Service Water Facility• Water Treatment operation
• Material Handling Line operation
• Preparation Line operation • Heating Line operation
• Packing Line operation• Pumps
• Packaged AC
• Fan/Blower
“EnMS Charter” Guidebook+t (EnMS-Charter-M01E)
ISO 50001 Requirement Summary & Interpretation
29. 29
4.5. Implementation and operation
Clause 4. EnMS requirements
4.5.6 Design
Facility Design
• Review energy aspects
in design
Product Design
Two types of designing effort for energy efficient performance:
Manufacturing Process Design
• Review Design
• Financial analysis
• Identify as
Energy Saving
Project
• URS
• Trial / tests
• Acceptance
• Construction or modeling
• Feasibility study
• Project proposal
Management
Review
• Verification
Approval
RESULT
“EnMS Energy Review Report” Guidebook+t (EnMS-EnRev.Rep-M01E)
(Not mention in ISO 50001
but worth consider)
ISO 50001 Requirement Summary & Interpretation
30. 30
4.5. Implementation and operation
Clause 4. EnMS requirements
4.5.7 Procurement of energy services, products, equipment and energy
Procurement of energy services,
products and equipments Procurement of energy supply
Supplier quotation
- Specs on energy
type and rating
- Life cycle energy
consumption estimate
- Life cycle maintenance
cost
- Service availability in
case of contingency
situations
Energy efficiency
assessment
Life cycle energy cost
vs. maintenance cost
assessment
Service flexibility assessment
especially in the time of contingency
Supplier quotation
- Composition specifications
of fuel energy
- Composition specifications
of water
- Heat conversion factor per
energy unit
- CO2 emission conversion
factor per energy unit
Perform composition test once
every six months
Check regularly the energy
market prices to compare
purchase prices
“EnMS Lean Energy Procurement Guideline” Guidebook+t (EnMS-Procure.Gdln-M01E)
Collaboration with suppliers is key
ISO 50001 Requirement Summary & Interpretation
31. 31
4.6. Checking (Performance)
Clause 4. EnMS requirements
4.6.1 Monitoring, measurement and analysis
Following key characteristics of its operations that determine energy
performance shall be monitored, measured and analysed at planned intervals.
a) significant energy uses and other
outputs of the energy review
b) the relevant variables related to
significant energy uses;
c) EnPIs
d) effectiveness of the action plans in
achieving objectives and targets
Guideline/procedure are useful to :
a) Define method of treating records
b) Define how to review measurement
needs
c) Define method to maintain quality of monitoring equipments and records
d) Define procedure to identify and act against deviations in energy performance
e) Define procedure for consistent monitoring and action operation
“EnMS Monitoring & Action Guideline” Guidebook+t (EnMS-Monitor.Gdln-M01E)
d) evaluation of actual versus expected
energy consumption.
ISO 50001 Requirement Summary & Interpretation
32. 4.6. Checking (Performance)
Clause 4. EnMS requirements
4.6.2 Evaluation of compliance with legal requirements and other requirements
EnMS is to stay alert and at planned interval evaluate compliance with legal
and other requirements to which EnMS subscribes that are relevant to its
energy uses.
a) List of legal and other requirements to which it
subscribes that are relevant to its energy uses
b) Summary or highlight description of evaluation items for
compliance
c) Compliance status
d) Recommended action
e) Additional remarks if necessary
The updates and results of evaluation can be consolidated as records in a
document containing following information:
Recorded information can be presented during
management review to serve EnMS purpose.
32“EnMS Legal & Requirements Compliance Status Report” Guidebook+t (EnMS-LRC.Status.Rep-M01E)
ISO 50001 Requirement Summary & Interpretation
33. 4.6. Checking (Performance)
Clause 4. EnMS requirements
4.6.3 Internal audit of the EnMS
EnMS audit is to be conducted as part of organisation’s audit programme.
a) Objective b) Scope
Define the EnMS audit:
Reference ISO19011:2002 “Guidance
on the Principles of Auditing” in
conducting EnMS audit.
c) Responsibility d) Procedure
EnMS audit is encouraged to conduct
in accordance with voluntary
documented EnMS audit plan. (*1)
Record of audit result shall be
reported to top management.
33“EnMS Audit Plan” Guidebook+t (EnMS-Audit.Plan-M01E)
(*1) ISO 50001 does not require audit
plan and report per se, however they
are highly recommended for efficient
and effective audit activities.
• EnMS is properly implemented and
energy performance improved
• EnMS conforms to energy objectives
and targets established
Audit examines :
ISO 50001 Requirement Summary & Interpretation
34. 4.6. Checking (Performance)
Clause 4. EnMS requirements
4.6.4 Nonconformities, correction, corrective action and preventive action
Improvement actions
EnMS Continual Improvement Guideline (Problem Resolution management Guideline)
EnMS Continual Improvement
Procedure
Actions for correction, corrective, and preventive as well as actions to counter
nonconformities
A guideline is useful to identify elements
requiring improvement, and to define
situations for preventive and corrective
actions.
A document defining procedure is useful
for the entire work force dealing with
actual and potential nonconformity, and
through corrective and preventive actions
to identify opportunities from continual
improvement practices.
34“EnMS Continual Improvement Guideline” Guidebook+t (EnMS-Cont.Impr.Gdln-M01E)
Continual improvement is the heart of EnMS operation
ISO 50001 Requirement Summary & Interpretation
35. 35
4.7. Management review
Clause 4. EnMS requirements
Management review is one of the most
important EnMS processes
a) Reassures top management role and
responsibility
b) Accelerates the EnMS progress for
continual improvement
c) Removes members’ wonder
d) Evaluate people’s effort & skill
e) Understands the changes made
Defining logistics
• Purpose • Participants
• Frequency • Procedure
Input to management review
Output from management review
• Changes in energy performance or EnPI
• Changes in energy policy, objectives/
targets or baseline
• Allocation of resources.
ISO 50001 Requirement Summary & Interpretation
36. 36
Annex A Guidance on the use of Clause 4 EnMS requirements
ISO 50001 Annexes & Interpretation
Annex A is strictly
informative
It is not intended to add to, subtract
from, or in any way modify these
requirements.
Purpose is to prevent
misinterpretation of the
requirements contained in
Clause 4.
It encourages periodically review and
evaluate energy performance from EnMS
operation in order to identify opportunities
for improvement for implementation.
Figure A.1 – Conceptual representation of energy
performance
Excerpt form “ISO 50001:2011 (E)” page 14
Excerpt from “ISO/DIS 50001” page 13
The organisation is given flexibility in
how it implements the EnMS.
Organisation can pursue Continual
improvement from a wide range of
energy performance activities.
37. 37
Annex B Comparison Table ISO 50001, ISO 9001, ISO 14001
and ISO 22000
Annex B compares the table of contents among "generic management
system standards“ including additional friend ISO 22000, International
Standard for Food safety Management System . The comparison is for the
purpose of providing good reference if one is considering integrating the
management systems.
Following observation can be stated:
ISO 9001 with its longer history and revision practiced
for improvement, splitting up the clauses for system
requirements based on the market needs. However the
contents coverage is uniform to ISO 50001 with
difference that ISO 9001needs to define product quality.
ISO 50001 and ISO 14001 have identical clause structure
which consolidates all the system requirements in clause 4.
All have the same title/clause structure up to clause 3.
…………….Forward
…………….Introduction
Clause 1 Scope
Clause 2 Normative reference
Clause 3 Terms and definitions
Clause 4 QM general requirements
Clause 5 Management responsibility
Clause 6 Resource management
Clause 7 Product realization
Clause 8 Measurement, analysis and
improvement
ISO 22000 follows ISO 9001 clause structure, with difference of putting emphasis on
safety quality.
4.5.5 Communication
4.6.1 Monitoring, measurement …
5.5.3 Internal communication
4.4.3 Energy review 7.2.1 Determination of requirements…
8.2.3 Monitoring, measurement …..
4.5.3 Documentation 4.2 Documentation requirements
4.5.2 Competence, training and… 6.2.2 Competence, training and…
4.7 Management review 5.6 Management review
4.5.7 Procurement of energy ser… 7.4 Purchasing
ISO 50001 ISO 9001
ISO 50001 Annexes & Interpretation
38. 38
Annex B Comparison Table for Key Standards of EnMS on the
“Energy Review” Criteria of ISO 50001
Following 8 established national standards represented as the key
member of TC242 were used for a comparison:
Although “Annex B” was removed, it is worthwhile to note that
“Energy Review” is ranked as a subject of high importance in EnMS.
(1) ANSI/MSE 2000-2008 (U.S.A.)
(2) DS 2403: 2001 (Denmark)
(3) EN 16001 (CEN)
(4) KATS KSA 4000:2007 (Korea)
(5) NSAI IS 393 (Ireland)
(6) SAC GB/T-200 March 2009 (China)
(7) SIS SS 627750 Reference (Sweden)
(8) TISI EnMS: SPECIFICATION 9/2004
(Thailand)
Reference from ISO/DIS 50001(E)
Informative Annex in ISO/DIS 50001(E) but was removed from ISO 50001:2011(E)
39. 39
(cont’d)
Following observation can be stated:
(2),(3),(5) & (7) representing as a European team has the similar basic
approach to energy review. The contents are similar to ISO 50001. They
put emphasis on human operation aspects of significant energy use.
(1) representing the U.S.A., the contents are similar to ISO 50001 but
descriptions are more in detail. A big difference is that it does not
elaborate on identifying ECOs.
(4) representing Korea, titled “The energy aspects analysis” with objective to
identify significant energy aspects and using EnPI in identifying improvement
factors (ECOs) then to set up action plan.
(6) representing China, the process is similar to ISO 50001 but putting
emphasis on baseline setting with consideration of using specific energy
consumption approach.
(8) representing Thailand, the contents are similar to ISO 50001 only
using different terminology.
(1) ANSI/MSE 2000-2008 (U.S.A.)
(2) DS 2403: 2001 (Denmark)
(3) EN 16001 (CEN)
(4) KATS KSA 4000:2007 (Korea)
(5) NSAI IS 393 (Ireland)
(6) SAC GB/T-200 March 2009 (China)
(7) SIS SS 627750 Reference (Sweden)
(8) TISI EnMS: SPECIFICATION 9/2004 (Thailand)
Comparison Table by Key Standards on “Energy Review” Criteria to ISO 50001
Reference from ISO/DIS 50001(E)
40. 40
Summary of Management Principles in EnMS
Following is the list of items necessary to control EnMS operation regardless of
what ISO 50001 requires:
1. Operation and Progress Management
2. Change Management
3. Operational Problem Resolution Management
4. Risk Management
5. Preparation for Contingency
6. Document Management
7. Objective and Target Achievement Evaluation Criteria
Ensuring objective and target achievement evaluation criteria are defined in order to
measure and evaluate progress or result
Ensuring operation is making progress according to the plan
Ensuring operation is in line with the changes
Ensuring operation swiftly to problem faced and turn into opportunity for improvement
Ensuring risk factors are evaluated to secure position for continual improvement
Ensuring safety is considered in case of emergency situation
Ensuring key documents are identified, maintain, updated and available when in need
Additional Management Principles in EnMS Operation
41. 41
Summary of Documentation
Records
Procedure Documents
Management
Documents
Documentation is key to the success of EnMS operation
12 Key documents were introduced for ISO 50001 certification
Audit Plan
Action Plan
Monitoring
Guideline
Energy Review
Report
Energy Policy
The Charter
Continual
Improvement
Guideline
Training Plan
Legal &
Requirements
Compliance
Status Report
Communication
GuidelineProcurement
Guideline
Document
Management
Guideline
“EnMS Charter” Guidebook+t (EnMS-Charter-M01E)
42. 42
Thank you
Final notes…
This guide is to acknowledge the good feeling
about how EnMS can brighten up your
organisation on account of energy efficient
operation, and at the same time gaining ISO
50001 certification.
Documentation is the key to disseminate
guidelines and provisions for people to move
into the right direction for continual
improvement.
With ISO 50001 class documentation, your
EnMS operation is on a global scale at your own
language.
43. 43
For Questions, comments etc.,
Please contact:
nobby@enms-doc.com
Contents were prepared by
EnMS-Doc Associates
www.enms-doc.com
Permission to use extracts from ISO 50001 was provided by Standards Council
of Canada. No further reproduction is permitted without prior written approval
from Standards Council of Canada.