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A Comprehensive Guide to ABB Energy Management Systems: Best Practices and Pitfalls
Author: Dr. Eleanor Vance, PhD, Senior Electrical Engineer with 15 years of experience in industrial automation and energy management systems, specializing in ABB solutions.
Publisher: Industrial Automation Insights, a leading publisher of technical guides and industry analysis focused on automation, control systems, and energy efficiency. They have a dedicated team of engineers and writers with extensive experience in the field of industrial automation.
Editor: Mark Johnson, BSc Electrical Engineering, with 10 years of experience in technical editing and content creation for the industrial automation sector.
Keyword: ABB Energy Management System
Summary: This guide provides a comprehensive overview of ABB energy management systems, covering their functionalities, benefits, implementation best practices, and common pitfalls. It explores various system components, explores optimization strategies, and offers insights into troubleshooting and maintenance to maximize efficiency and minimize operational costs. The guide is designed for engineers, facility managers, and anyone involved in implementing or managing ABB energy management solutions.
1. Introduction to ABB Energy Management Systems
ABB offers a range of energy management systems (EMS) designed to optimize energy consumption across various industrial and commercial applications. These systems leverage advanced technologies to monitor, analyze, and control energy usage, leading to significant cost savings and environmental benefits. The core of any ABB energy management system lies in its ability to gather real-time data from diverse sources, process it intelligently, and provide actionable insights for improved energy efficiency. Key components often include energy meters, sensors, communication networks (e.g., Ethernet/IP, Modbus), and sophisticated software platforms for data visualization and control. The specific configuration of an ABB energy management system will vary depending on the size and complexity of the facility and its energy needs.
2. Key Components and Functionalities of an ABB Energy Management System
An effective ABB energy management system typically incorporates several key components:
Energy Meters: These precisely measure energy consumption at various points within the facility, providing granular data for analysis.
Sensors: These monitor environmental factors (temperature, humidity) and equipment performance, enhancing the system's overall understanding of energy usage patterns.
Communication Network: A robust network infrastructure is essential for seamless data transfer between various components of the system. ABB supports various protocols for seamless integration.
Software Platform: This provides a centralized interface for data visualization, analysis, reporting, and control functionalities. ABB’s software often allows for remote monitoring and control, enabling proactive management and optimization.
Control Systems: These allow for automated adjustments to energy consumption based on pre-defined parameters or real-time conditions. This can involve controlling HVAC systems, lighting, and other energy-intensive equipment.
3. Implementing an ABB Energy Management System: Best Practices
Successful implementation requires careful planning and execution. Key best practices include:
Conducting a thorough energy audit: This identifies areas with high energy consumption and establishes a baseline for measuring improvements.
Defining clear objectives and KPIs: Establish specific, measurable, achievable, relevant, and time-bound (SMART) goals for energy savings.
Selecting appropriate hardware and software: This decision should be based on the facility's specific needs and scale.
Ensuring seamless integration with existing systems: Compatibility with existing infrastructure is crucial for a smooth transition.
Providing adequate training to personnel: Proper training is essential for effective operation and maintenance of the system.
Developing a comprehensive maintenance plan: Regular maintenance is crucial for ensuring the continued accuracy and reliability of the system.
4. Common Pitfalls to Avoid When Implementing an ABB Energy Management System
Several common pitfalls can hinder the effectiveness of an ABB energy management system:
Insufficient planning and lack of clear objectives: Without well-defined goals, measuring success becomes difficult.
Inadequate data acquisition: Incomplete or inaccurate data compromises the system's analysis and decision-making capabilities.
Poor system integration: Incompatibility with existing systems can lead to data silos and operational challenges.
Lack of user training and support: Inadequate training can limit the system's utilization and potential benefits.
Neglecting ongoing maintenance: Regular maintenance ensures data accuracy and system reliability.
Underestimating the complexity of the project: Implementing a comprehensive system requires expertise and careful planning.
5. Optimizing Your ABB Energy Management System for Maximum Efficiency
Optimizing an ABB energy management system involves continuous monitoring, analysis, and adjustment. Strategies include:
Regularly reviewing energy consumption data: Identify trends and areas for improvement.
Implementing energy-saving strategies based on data insights: Adjust operational parameters based on analysis.
Utilizing advanced analytics and machine learning: Predict future energy consumption and optimize accordingly.
Leveraging remote monitoring and control capabilities: Proactive management enables swift responses to potential issues.
6. Troubleshooting and Maintenance of ABB Energy Management Systems
Proactive maintenance is crucial. Regular checks include:
Verifying data accuracy and consistency: Ensure reliable data for accurate analysis.
Inspecting hardware components for any damage or malfunctions: Address issues promptly to prevent disruptions.
Updating software and firmware: Benefit from the latest features and bug fixes.
Conducting regular system backups: Protect against data loss.
7. Case Studies: Real-World Applications of ABB Energy Management Systems
Numerous case studies demonstrate the success of ABB energy management systems in diverse industries. These showcase significant reductions in energy consumption and operational costs, along with improved environmental sustainability. (Specific case studies could be inserted here, detailing measurable results achieved by different organizations).
8. The Future of ABB Energy Management Systems
Future developments in ABB's EMS will likely include increased integration with IoT devices, advanced analytics using AI and machine learning, and improved user interfaces for easier navigation and data interpretation. Further advancements in cloud-based solutions and improved cybersecurity features will also play a vital role.
Conclusion
Implementing an ABB energy management system can significantly reduce energy consumption, lower operating costs, and improve environmental sustainability. However, successful implementation requires careful planning, proper execution, and ongoing maintenance. By following best practices and avoiding common pitfalls, organizations can maximize the benefits of their investment in an ABB energy management system and achieve significant improvements in energy efficiency.
FAQs
1. What are the different types of ABB energy management systems available? ABB offers a range of systems tailored to different scales and needs, from smaller systems for individual buildings to large-scale solutions for entire industrial complexes.
2. How much does an ABB energy management system cost? The cost varies significantly depending on the system's size, complexity, and specific features.
3. What kind of training is required to operate an ABB energy management system? ABB provides training programs tailored to different user levels, from basic operation to advanced system management.
4. How can I integrate my existing systems with an ABB energy management system? ABB offers various integration options depending on your existing infrastructure, often involving compatible communication protocols.
5. What are the key performance indicators (KPIs) used to measure the success of an ABB energy management system? Key KPIs include energy consumption reduction, cost savings, and improved environmental performance.
6. What are the cybersecurity considerations for an ABB energy management system? ABB incorporates robust cybersecurity measures to protect data and system integrity. Regular updates and security protocols are crucial.
7. How often should I perform maintenance on my ABB energy management system? Regular maintenance schedules should be established based on usage and manufacturer recommendations.
8. What are the potential return on investment (ROI) benefits of implementing an ABB energy management system? ROI varies depending on factors like energy consumption levels and implementation costs, but significant savings are often realized within a few years.
9. What support services does ABB offer for its energy management systems? ABB provides comprehensive support services, including technical assistance, maintenance, and training.
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1. ABB Ability™ Electrical Distribution Control System: A deep dive into this specific ABB system and its capabilities.
2. ABB Energy Efficiency Services: An exploration of the services ABB offers to help optimize energy use.
3. Integrating ABB Energy Management Systems with Building Automation Systems (BAS): Focuses on the challenges and benefits of integration.
4. Cybersecurity for ABB Energy Management Systems: A comprehensive look at security best practices.
5. Case Study: Energy Savings Achieved with ABB Energy Management Systems in a Manufacturing Facility: A detailed analysis of a successful implementation.
6. Predictive Maintenance using ABB Energy Management System Data: Explores the use of data analytics for predictive maintenance.
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8. Cost-Benefit Analysis of Implementing an ABB Energy Management System: A detailed economic evaluation.
9. ABB Energy Management System Compliance with Industry Standards: Covers compliance with relevant regulations and standards.
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| abb energy management system: European Directory of Sustainable and Energy Efficient Building 1999 John Goulding, 2014-05-01 This directory has become a valued source of information for energy-efficient building designers and specifiers throughout Europe and the details and scope of product, service and supplier listings have again been extensively updated for this edition. |
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| abb energy management system: Control and Automation of Electrical Power Distribution Systems James Northcote-Green, Robert G. Wilson, 2017-12-19 Implementing the automation of electric distribution networks, from simple remote control to the application of software-based decision tools, requires many considerations, such as assessing costs, selecting the control infrastructure type and automation level, deciding on the ambition level, and justifying the solution through a business case. Control and Automation of Electric Power Distribution Systems addresses all of these issues to aid you in resolving automation problems and improving the management of your distribution network. Bringing together automation concepts as they apply to utility distribution systems, this volume presents the theoretical and practical details of a control and automation solution for the entire distribution system of substations and feeders. The fundamentals of this solution include depth of control, boundaries of control responsibility, stages of automation, automation intensity levels, and automated device preparedness. To meet specific performance goals, the authors discuss distribution planning, performance calculations, and protection to facilitate the selection of the primary device, associated secondary control, and fault indicators. The book also provides two case studies that illustrate the business case for distribution automation (DA) and methods for calculating benefits, including the assessment of crew time savings. As utilities strive for better economies, DA, along with other tools described in this volume, help to achieve improved management of the distribution network. Using Control and Automation of Electric Power Distribution Systems, you can embark on the automation solution best suited for your needs. |
| abb energy management system: Information Technology for Energy Managers Barney L. Capehart, 2020-12-17 Covering the basic concepts and principles of Information Technology (IT), this book gives energy managers the knowledge they need to supervise the IT work of a consultant or a vendor. The book provides the necessary information for the energy manager to successfully purchase, install, and operate complex, Web-based energy information and control systems. Filled with comprehensive information, this book addresses the most significant concepts and principles that the typical energy or facility manager might need with emphasis on computer networking, use of facility operation databases, and sharing data using the Web and the TCP/IP communications protocol. |
| abb energy management system: Paper , 1991 |
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| abb energy management system: The Industrial Information Technology Handbook Richard Zurawski, 2018-10-03 The Industrial Information Technology Handbook focuses on existing and emerging industrial applications of IT, and on evolving trends that are driven by the needs of companies and by industry-led consortia and organizations. Emphasizing fast growing areas that have major impacts on industrial automation and enterprise integration, the Handbook covers topics such as industrial communication technology, sensors, and embedded systems. The book is organized into two parts. Part 1 presents material covering new and quickly evolving aspects of IT. Part 2 introduces cutting-edge areas of industrial IT. The Handbook presents material in the form of tutorials, surveys, and technology overviews, combining fundamentals and advanced issues, with articles grouped into sections for a cohesive and comprehensive presentation. The text contains 112 contributed reports by industry experts from government, companies at the forefront of development, and some of the most renowned academic and research institutions worldwide. Several of the reports on recent developments, actual deployments, and trends cover subject matter presented to the public for the first time. |
| abb energy management system: The Innovating Organization Andrew M Pettigrew, Evelyn M Fenton, 2000-09-05 The Innovating Organization is a systematic, empirical study of the change in forms from traditional multi-divisional hierarchies to flatter, less rigid networks. The rich array of data generated by the eight current international case studies provides fresh insights into the network organization, and suggests new methodologies for organizational research. Coopers & Lybrand, BP, Unilever, Rabobank and Saab are amongst the companies surveyed. |
| abb energy management system: Modular Systems for Energy Usage Management Yatish T. Shah, 2020-01-22 ...[a] very unique book that integrates benefits of modular systems for enhanced sustainability to meet the global challenges of rapid and sometimes uncontrolled industrialization in the 21st century.—Pinakin Patel, T2M Global This book examines the role of the modular approach for the back end of the energy industry—energy usage management. It outlines the use of modular approaches for the processes used to improve energy conservation and efficiency, which are preludes to the prudent use of energy. Since energy consumption is conventionally broken down into four sectors—residential, transportation, industrial, and commercial—the discussions on energy usage management are also broken down into these four sectors in the book. The book examines the use of modular systems for five application areas that cover the sectors described above: buildings, vehicles, computers and electrical/electronic products, district heating, and wastewater treatment and desalination. This book also discusses the use of a modular approach for energy storage and transportation. Finally, it describes how the modular approach facilitates bottom-up, top-down, and hybrid simulation and modeling of the energy systems from various scientific and socioeconomic perspectives. Aimed at industry professionals and researchers involved in the energy industry, this book illustrates in detail, with the help of concrete industrial examples, how a modular approach can facilitate management of energy usage. |
| abb energy management system: Electricity Distribution Network Design Erkki Lakervi, E. J. Holmes, 1995 This study outlines the theoretical and practical aspects which are relevant to the design of distribution networks, particularly the increased use of computers in their design and operation. The edition has been revised to include material on electromagnetic compatibility and legislation. |
| abb energy management system: Smart Grid Planning and Implementation P.E. Gellings, 2020-12-22 This book is intended for electric utility managers, directors, and power system planners, regulators, and policy makers interested in the steps needed to realize the value of a modern power delivery system. This book describes the elements needed in planning and implementing a Smart Grid by outlining how the electricity delivery system can be modernized so it monitors, protects, and automatically optimizes the operation of its interconnected elements—from the central and distributed generator through the high-voltage network and distribution system, to energy storage installations and to end-use consumers and their thermostats, electric vehicles, appliances, and other household devices. This comprehensive guide highlights emerging concepts of cyber and physical security, resiliency, and the newest architecture—The Integrated Grid. You’ll gain an understanding of how a two-way flow of electricity and information can be used to create an automated, widely distributed energy delivery network. |
| abb energy management system: Energy Research Abstracts , 1994-05 |
| abb energy management system: Green Communications and Networking F. Richard Yu, Xi Zhang, Victor C.M. Leung, 2016-04-19 Green Communications and Networking introduces novel solutions that can bring about significant reductions in energy consumption in the information and communication technology (ICT) industry-as well as other industries, including electric power. Containing the contributions of leading experts in the field, it examines the latest research advances |
| abb energy management system: Thomas Register of American Manufacturers , 2002 This basic source for identification of U.S. manufacturers is arranged by product in a large multi-volume set. Includes: Products & services, Company profiles and Catalog file. |
| abb energy management system: DC Technology in Utility Grids Sedigheh Rabiee, Marco Cupelli, Mohsen Ferdowsi, Hanno Stagge, Matthias Heidemann, Robert Möller, 2021-12-17 The assembly of this study started in 2013 during the preparation of the foundation of the Flexible Electrical Networks (FEN) Research Campus, an institution supported by the German Federal Ministry of Education and Science, concentrating on DC technology in power grids as an enabler for the energy transition. It reflects the state-of-the-art and research needs of DC technology against the background of application in public grids up until the year 2015. Topics as components, control, management and automation, high-, medium, and low-voltage grid concepts as well as social dimensions, economics, and impact on living beings are considered. After substantial editorial effort, its first public edition has become ready now. The aim of FEN is to investigate and to develop flexible power grids. Such grid will safeguard the future energy supply with a high share of fluctuating and decentralized renewable energy sources. At the same time, these grids will enable a reliable and affordable energy supply in the future. The objective is to provide new technologies and concepts for the security and quality of the energy supply in the transmission and distribution grids. To pursue this goal, the use of direct-current (DC) technology, based on power electronics, automation and communication technologies, plays an important role. Although DC technology is not yet established as a standard technology in the public electrical power supply system, its high potential has been widely recognized. The use of DC is an enabler to make the future energy supply system more economical than a system based on alternating-current (AC), because of its superior properties in handling distributed and fluctuation power generation. Indeed, DC connections are already the most cost-efficient solution in cases of very high-power long-distance point-to-point transmission of electricity or via submarine cables. The objective of the FEN Research Campus is now to achieve and demonstrate feasibility of DC as a standard solution for future electrical grids, as described in this study. |
| abb energy management system: Fostering Cross-Industry Sustainability With Intelligent Technologies Mishra, Brojo Kishore, 2024-01-22 In today's context of intricate global challenges, encompassing climate crises, resource scarcity, and social disparities, the imperative for sustainable development has never been more pressing. While academic scholars and researchers are instrumental in crafting solutions, they often grapple with the intricate balance between theoretical concepts and practical implementation. This gap impedes the transformation of innovative ideas into tangible societal progress, leaving a void where effective real-world strategies for cross-industry sustainability should flourish. Fostering Cross-Industry Sustainability With Intelligent Technologies seeks to bridge this divide. This book is more than just a collection of pages; it serves as a roadmap for those determined to make a tangible impact. It brings together a diverse group of esteemed experts from various disciplines, offering a comprehensive spectrum of actionable insights, all grounded in the ethical imperatives of inclusivity and environmental responsibility. Anchored in the United Nations Sustainable Development Goals (SDGs), this volume serves as a guiding star, channeling theoretical expertise into practical solutions. For academic scholars, scientists, innovators, and students alike, Fostering Cross-Industry Sustainability With Intelligent Technologies is the definitive guidepost. It fosters a profound understanding of the real-world implications of research, promoting interdisciplinary collaborations that transcend conventional boundaries. This comprehensive book presents a wealth of sustainable science and intelligent technology applications, all while emphasizing the importance of ethics and societal impact. With visionary insights woven throughout its pages, it calls upon humanity to envision a future where challenges transform into opportunities, and sustainable development becomes an attainable reality. |
| abb energy management system: Energy and Water Development Appropriations for 1992: Department of Energy United States. Congress. House. Committee on Appropriations. Subcommittee on Energy and Water Development, 1991 |
| abb energy management system: Energy and Water Development Appropriations for 1992 United States. Congress. House. Committee on Appropriations. Subcommittee on Energy and Water Development, 1991 |
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| abb energy management system: ABB Kevin Barham, Claudia Heimer, 1998 Based on exclusive interviews with the ABB top management team and privileged sessions with the CEO, this book takes you inside Europe's most admired company to discover the ABB way. It offers the five guiding lights for the connected corporation, the four types of ABB manager, the steps to creating a global knowledge machine and the master plan for the next millennium. |
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| abb energy management system: Low Emission Power Generation Technologies and Energy Management Jean-Claude Sabonnadière, 2013-01-24 This title is dedicated to energy storage, low emission technologies and energy management, with discussions on the future of nuclear energy, combined heat and power, using hydrogen as an energy vector and fuel cells, as well as chapters on energy saving and control of the demand for power. |
| abb energy management system: Soul of the Grid California Independent System Operator, 2003-09-30 I felt like we had failed, said director of grid operations Jim Detmers in a pained voice. In my mind, I pictured people stranded in elevators. I pictured people stranded in stores and checkout lines. All I could think of was the Inconvenience, and I'm sitting here thinking thinking, what rock did we not look under to maybe prevent this? As the focal point of an unprecedented power crisis that has tarnished the Golden State, the California Independent System Operator (California ISO) carries the mixed burden of being a disaster survivor. Established to maintain electrical system reliability for the world's fifth-largest economy, California ISO has been both praised and vilified for its efforts amidst the chaos of blackouts, price volatility, political backlash, and market manipulations by Enron and other ruthless competitors. This book chronicles how the California ISO came to be and what happened during its first five years. More importantly, though, this is the story of the people who make up California ISO and give it an identifiable character and culture-its soul. The result is a very human drama that is otherwise unavailable from the regulatory record or media accounts of California's unparalleled power emergency. |
| abb energy management system: Integration of Distributed Generation in the Power System Math H. J. Bollen, Fainan Hassan, 2011-08-04 The integration of new sources of energy like wind power, solar-power, small-scale generation, or combined heat and power in the power grid is something that impacts a lot of stakeholders: network companies (both distribution and transmission), the owners and operators of the DG units, other end-users of the power grid (including normal consumers like you and me) and not in the least policy makers and regulators. There is a lot of misunderstanding about the impact of DG on the power grid, with one side (including mainly some but certainly not all, network companies) claiming that the lights will go out soon, whereas the other side (including some DG operators and large parks of the general public) claiming that there is nothing to worry about and that it's all a conspiracy of the large production companies that want to protect their own interests and keep the electricity price high. The authors are of the strong opinion that this is NOT the way one should approach such an important subject as the integration of new, more environmentally friendly, sources of energy in the power grid. With this book the authors aim to bring some clarity to the debate allowing all stakeholders together to move to a solution. This book will introduce systematic and transparent methods for quantifying the impact of DG on the power grid. |
| abb energy management system: On power system automation: Christoph Brosinsky, 2023-01-01 The ubiquitous digital transformation also influences power system operation. Emerging real-time applications in information (IT) and operational technology (OT) provide new opportunities to address the increasingly demanding power system operation imposed by the progressing energy transition. This IT/OT convergence is epitomised by the novel Digital Twin (DT) concept. By integrating sensor data into analytical models and aligning the model states with the observed system, a power system DT can be created. As a result, a validated high-fidelity model is derived, which can be applied within the next generation of energy management systems (EMS) to support power system operation. By providing a consistent and maintainable data model, the modular DT-centric EMS proposed in this work addresses several key requirements of modern EMS architectures. It increases the situation awareness in the control room, enables the implementation of model maintenance routines, and facilitates automation approaches, while raising the confidence into operational decisions deduced from the validated model. This gain in trust contributes to the digital transformation and enables a higher degree of power system automation. By considering operational planning and power system operation processes, a direct link to practice is ensured. The feasibility of the concept is examined by numerical case studies. |
| abb energy management system: European Directory of Sustainable and Energy Efficient Building 1999 Owen Lewis, John Goulding, 1999 First Published in 1999. Routledge is an imprint of Taylor & Francis, an informa company. |
| abb energy management system: MECHANICAL ENGINEERING, ENERGY SYSTEMS AND SUSTAINABLE DEVELOPMENT -Volume V Konstantin V. Frolov, Oleg N. Favorsky, R.A. Chaplin and Christos Frangopoulos, 2009-04-15 Mechanical Engineering, Energy Systems and Sustainable Development theme is a component of Encyclopedia of Physical Sciences, Engineering and Technology Resources in the global Encyclopedia of Life Support Systems (EOLSS), which is an integrated compendium of twenty one Encyclopedias. The Theme on Mechanical Engineering, Energy Systems and Sustainable Development with contributions from distinguished experts in the field discusses mechanical engineering - the generation and application of heat and mechanical power and the design, production, and use of machines and tools. These five volumes are aimed at the following five major target audiences: University and College Students Educators, Professional Practitioners, Research Personnel and Policy Analysts, Managers, and Decision Makers, NGOs and GOs. |
| abb energy management system: Artificial Intelligence-based Smart Power Systems Sanjeevikumar Padmanaban, Sivaraman Palanisamy, Sharmeela Chenniappan, Jens Bo Holm-Nielsen, 2022-12-20 Authoritative resource describing the artificial intelligence and advanced technologies in smart power systems with simulation examples and case studies Artificial Intelligence-based Smart Power Systems presents advanced technologies used in various aspects of smart power systems, especially grid-connected and industrial evolution, covering many new topics such as distribution Phasor management, blockchain technologies for smart power systems, the application of deep learning and reinforced learning, and artificial intelligence techniques. The text also explores the potential consequences of artificial intelligence and advanced technologies in smart power systems in the forthcoming years. To enhance and reinforce learning, the highly qualified editors include many learning resources throughout the text, including MATLAB and HIL codes, end-of-chapter problems, end-of-book solutions, practical examples, and case studies. Artificial Intelligence-based Smart Power Systems includes specific information on topics such as: Modeling and analysis of smart power systems, covering steady state analysis, dynamic analysis, voltage stability, and more Recent advancement in power electronics for smart power systems, covering power electronic converters for renewable energy sources, electric vehicles, and HDVC/FACTs Distribution Phasor Measurement Units (PMU) in smart power systems, covering the need for PMU in distribution and automation of system reconfigurations Power and energy management systems for microgrids Engineering colleges and universities, along with industry research centers, can use the in-depth subject coverage and the extensive supplementary learning resources found in Artificial Intelligence-based Smart Power Systems to gain a holistic understanding of the subject and be able to harness that knowledge within a myriad of practical applications. |
| abb energy management system: Sustainable Investing Hanna Silvola, Tiina Landau, 2021-06-14 This book reviews the latest methods of sustainable investing and financial profit making and describes how ESG (Environmental, Social, Governance) analysis can identify future business opportunities and manage risk to achieve abnormal returns. Megatrends such as climate change, sustainable development and digitalisation increase uncertainty and information asymmetry and have an impact on the future returns on investments. From a profit perspective, it is largely about how ESG factors affect the long-term value added by companies and the valuation of companies in the financial markets. Although sustainability provides an opportunity for abnormal returns, this phenomenon must be considered in a critical light. The book describes the risks and limitations associated with the accountability and availability of ESG data and tools. This book provides both academic findings and practical models for assessing the sustainability of investees and introduces practical tools and methods to make ESG analysis practice. It focuses on the ESG analysis of equity investments and fund investments in institutional investment organizations and provides a handbook for all investment analysts who are involved with investment decisions. Readers will benefit from understanding the methods, opportunities and challenges that professionals use in their ESG analysis with cases, interviews and practical tools for both institutional and private investors. |
| abb energy management system: MECHANICAL ENGINEERING, ENERGY SYSTEMS AND SUSTAINABLE DEVELOPMENT -Volume I Konstantin V. Frolov, Oleg N. Favorsky, R.A. Chaplin and Christos Frangopoulos, 2009-04-15 Mechanical Engineering, Energy Systems and Sustainable Development theme is a component of Encyclopedia of Physical Sciences, Engineering and Technology Resources in the global Encyclopedia of Life Support Systems (EOLSS), which is an integrated compendium of twenty one Encyclopedias. The Theme on Mechanical Engineering, Energy Systems and Sustainable Development with contributions from distinguished experts in the field discusses mechanical engineering - the generation and application of heat and mechanical power and the design, production, and use of machines and tools. These five volumes are aimed at the following five major target audiences: University and College Students Educators, Professional Practitioners, Research Personnel and Policy Analysts, Managers, and Decision Makers, NGOs and GOs. |
| abb energy management system: Advances in Production Management Systems: Innovative and Knowledge-Based Production Management in a Global-Local World Bernard Grabot, Bruno Vallespir, Gomes Samuel, Abdelaziz Bouras, Dimitris Kiritsis, 2014-08-26 The three volumes IFIP AICT 438, 439, and 440 constitute the refereed proceedings of the International IFIP WG 5.7 Conference on Advances in Production Management Systems, APMS 2014, held in Ajaccio, France, in September 2014. The 233 revised full papers were carefully reviewed and selected from 271 submissions. They are organized in 6 parts: knowledge discovery and sharing; knowledge-based planning and scheduling; knowledge-based sustainability; knowledge-based services; knowledge-based performance improvement, and case studies. |
| abb energy management system: Thomas Register of American Manufacturers and Thomas Register Catalog File , 2002 Vols. for 1970-71 includes manufacturers' catalogs. |
| abb energy management system: Computerworld , 2002-06-10 For more than 40 years, Computerworld has been the leading source of technology news and information for IT influencers worldwide. Computerworld's award-winning Web site (Computerworld.com), twice-monthly publication, focused conference series and custom research form the hub of the world's largest global IT media network. |
| abb energy management system: Microgrid Design and Operation: Toward Smart Energy in Cities Federico Delfino , Renato Procopio, Mansueto Rossi, Massimo Brignone, Michela Robba, Stefano Bracco, 2018-08-31 With the growth of renewable energy sources, microgrids have become a key component in the distribution of power to localized areas while connected to the traditional grid or operating in a disconnected island mode. Based on the extensive real-world experience of the authors, this cutting-edge resource provides a basis for the design, installation, and day-by-day management of microgrids. Professionals find coverage of the critical aspects they need to understand, from the initial planning and the selection of the most appropriate technologies and equipment, to optimal management and real-time control. Moreover, this forward-looking book places emphasis on new architectures of the energy systems of the future. Written in accessible language with practical examples, the book explains advanced topics such as optimization algorithms for energy management systems, control issues for both on-grid and island mode, and microgrid protection. Practitioners are also provided with a complete vision for the deployment of the microgrid in smart cities. |
| abb energy management system: Energy Management in Buildings David Thorpe, 2013-10-23 The role of the energy manager has evolved significantly as the task of cutting greenhouse gas emissions from buildings has become increasingly important. Managers are now technical experts, negotiators, construction project managers, procurement specialists, efficiency advocates and often provide energy services to others. This comprehensive book covers how to: • conduct an energy audit • plan a monitoring and verification strategy • make any energy-saving campaign successful • evaluate and make the financial case for energy-saving measures • make use of free energy for lighting and managing heat loss and gain. It also contains special chapters on: • ventilation, heating and cooling • demand management through automated systems • lighting • most requirements of industrial facilities • regulatory requirements in Britain, Europe and the United States • the use of smart meters and monitoring • how to achieve zero energy buildings • the use of renewable energy. For all professional energy, building and facilities managers, energy consultants, students, trainees and academics. It takes the reader from basic concepts to the latest advanced thinking, with principles applicable anywhere in the world and in any climate. |
| abb energy management system: Oil and Gas Production Handbook: An Introduction to Oil and Gas Production Havard Devold, 2013 |
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