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Maintaining Mission Critical Systems in a 24/7 Environment / Peter M. Curtis.

By: Curtis, Peter M [author.].
Contributor(s): IEEE Xplore (Online Service) [distributor.] | John Wiley & Sons [publisher.].
Material type: materialTypeLabelBookSeries: IEEE Press Series on Power Engineering: 61Publisher: Hoboken, New Jersey : Wiley-IEEE Press, c2011Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2011]Edition: 2nd ed.Description: 1 PDF (500 pages).Content type: text Media type: electronic Carrier type: online resourceISBN: 9781118041642.Subject(s): Reliability (Engineering) | Monitoring | Plastics | Power distribution | Power engineering | Power generation | Power quality | Power system reliability | Power systems | Reactive power | Rectifiers | Redundancy | Reliability | Resistance | Risk analysis | Risk management | Safety | Security | Servers | Slabs | Standards | Standby generators | Steel | Storage tanks | Switches | Temperature distribution | Temperature measurement | Terminology | Terrorism | Testing | Thyristors | Tiles | Training | USA Councils | Uninterruptible power systems | Warranties | Water heating | Wheels | Advertising | Availability | Batteries | Bibliographies | Buildings | Business | Business continuity | Circuit breakers | Coils | Companies | Computational fluid dynamics | Computers | Cooling | Current measurement | Diesel engines | Electric potential | Electricity | Engines | Face | Facsimile | Fires | Floors | Fluids | Fuels | Generators | Government | Green products | Heat transfer | Heating | Home appliances | IEEE Press | Indexes | Industries | Legged locomotion | Lighting | Liquid cooling | Logic gates | Maintenance engineering | Marketing and sales | Mission critical systemsGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 620/.00452 Online resources: Abstract with links to resource Also available in print.
Contents:
Chapter 1 An Overview of Reliability and Resiliency in Today's Mission Critical Environment -- 1.1 Introduction -- 1.2 Risk Assessment -- 1.3 Capital Cost versus Operation Cost -- 1.4 Critical Environment Workflow and Change Management -- 1.5 Testing and Commissioning -- 1.6 Documentation and Human Factor -- 1.7 Education and Training -- 1.8 Operation and Maintenance -- 1.9 Employee Certification -- 1.10 Standard and Benchmarking -- 1.11 Conclusion -- 1.12 Risk Analysis and Improvement -- Chapter 2 Energy Security and its Effect on Business Resiliency -- 2.1 Introduction -- 2.2 Risks Related to Information Security -- 2.3 How Risks are Addressed -- 2.4 Use of Distributed Generation -- 2.5 Documentation and Its Relation to Information Security -- 2.6 Smart Grid -- 2.7 Conclusion -- 2.8 Risk Analysis and Improvement -- Chapter 3 Mission Critical Engineering with an Overview of Green Technologies -- 3.1 Introduction -- 3.2 Companies' Expectations; Risk Tolerance and Reliability -- 3.3 Identifying the Appropriate Redundancy in a Mission Critical Facility -- 3.4 Improving Reliability, Maintainability, and Proactive Preventative Maintenance -- 3.5 The Mission Critical Facilities Manager and the Importance of the Boardroom -- 3.6 Quantifying Reliability and Availability -- 3.7 Design Considerations for the Mission Critical Data Center -- 3.8 The Evolution of Mission Critical Facility Design -- 3.9 Human Factors and the Commissioning Process -- 3.10 Short Circuit and Coordination Studies -- 3.11 Introduction to Direct Current in the Data Center -- 3.12 Containerized Systems Overview -- 3.13 Conclusion -- Chapter 4 Mission Critical Electrical System Maintenance and Safety -- 4.1 Introduction -- 4.2 The History of the Maintenance Supervisor and the Evolution of the Mission Critical Facilities Engineer -- 4.3 Internal Building Deficiencies and Analysis -- 4.4 Evaluating Your System -- 4.5 Choosing a Maintenance Approach -- 4.6 Safe Electrical Maintenance -- 4.7 Maintenance of Typical Electrical Distribution Equipment.
4.8 Being Proactive In Evaluating the Test Reports -- 4.9 Conclusion -- Chapter 5 Standby Generators: Operations and Maintenance -- 5.1 Introduction -- 5.2 The Necessity for Standby Power -- 5.3 Emergency, Legally Required, and Optional Systems -- 5.4 Standby Systems That Are Legally Required -- 5.5 Optional Standby Systems -- 5.6 Understanding Your Power Requirements -- 5.7 Management Commitment and Training -- 5.8 Standby Generator Systems Maintenance Procedures -- 5.9 Documentation Plan -- 5.10 Emergency Procedures -- 5.11 Cold Start and Load Acceptance -- 5.12 Non-Linear Load Problems -- 5.13 Conclusion -- Chapter 6 Fuel Systems Design and Maintenance -- 6.1 Introduction -- 6.2 Brief Discussion on Diesel Engines -- 6.3 Bulk Storage Tank Selection -- 6.4 Codes and Standards -- 6.5 Recommended Practices for All Tanks -- 6.6 Fuel Distribution System Configuration -- 6.7 Day Tank Control System -- 6.8 Diesel Fuel and A Fuel Quality Assurance Program -- 6.9 Conclusion -- Chapter 7 Power Transfer Switch Technology, Applications, and Maintenance -- 7.1 Introduction -- 7.2 Transfer Witch Technology and Applications -- 7.3 Types of Power Transfer Switches -- 7.4 Control Devices -- 7.5 Design Features -- 7.6 Additional Characteristics and Ratings of ATS -- 7.7 Installation and Commissioning, Maintenance, and Safety -- 7.8 General Recommendations -- 7.9 Conclusion -- Chapter 8 The Static Transfer Switch -- 8.1 Introduction -- 8.2 Overview -- 8.3 Typical Static Switch One Line -- 8.4 STS Technology and Application -- 8.5 Testing -- 8.6 Conclusion -- Chapter 9 The Fundamentals of Power Quality -- 9.1 Introduction -- 9.2 Electricity Basics -- 9.3 Transmission of Power -- 9.4 Understanding Power Problems -- 9.5 Tolerances of Computer Equipment -- 9.6 Power Monitoring -- 9.7 The Deregulation Wildcard -- 9.8 Conclusion -- Chapter 10 UPS Systems: Applications and Maintenance with an Overview of Green Technologies -- 10.1 Introduction -- 10.2 Purpose of UPS Systems -- 10.3 General Description of UPS Systems.
10.4 Components of a Static UPS System -- 10.5 Line Interactive UPS System -- 10.6 Offline (Standby) -- 10.7 The Evolution of Static UPS Technology -- 10.8 Rotary System -- 10.9 Redundancy, Configurations, and Topology -- 10.10 Energy Storage Devices -- 10.11 UPS Maintenance and Testing -- 10.12 Static UPS and Maintenance -- 10.13 UPS Management -- 10.14 Conclusion -- Chapter 11 Data Center Cooling Systems -- 11.1 Introduction -- 11.2 Background Information -- 11.3 Cooling Within Datacom Rooms -- 11.4 Cooling Systems -- 11.5 Components Outside the Datacom Room -- 11.6 Components Inside Datacom Rooms -- 11.7 Conclusion -- Chapter 12 Data Center Cooling Efficiency and Advanced Technology -- 12.1 Introduction -- 12.2 Heat Transfer inside Data Centers -- 12.3 Cooling and other Airflow Topics -- 12.4 Design Approaches for Data Center Cooling -- 12.5 Additional Considerations -- 12.6 Hardware and Associated Efficiencies -- 12.7 Best Practices -- 12.8 Efficiency Problem Solving -- 12.9 Conclusion -- 12.10 Conversions, Formulas, Guidelines -- Chapter 13 Raised Access Floors -- 13.1 Introduction -- 13.2 Design Considerations -- 13.3 Safety Concerns -- 13.4 Panel Cutting -- 13.5 Access Floor Maintenance -- 13.6 Troubleshooting -- 13.7 Additional Design Considerations -- 13.8 Conclusion -- Chapter 14 Fire Protection in Mission Critical Infrastructures -- 14.1 Introduction -- 14.2 Philosophy -- 14.3 Alarm and Notification -- 14.4 Early Detections -- 14.5 Fire Suppression -- 14.6 System Designs -- 14.7 Fire Detection -- 14.8 Fire Suppression Systems -- References -- APPENDICES -- Appendix A Policies and Regulations -- A.1 Introduction -- A.2 Industry Policies and Regulations -- A.2.1 USA Patriot Act -- A.2.2 Sarbanes-Oxley Act (SOX) -- A.2.3 Comprehensive Environmental Response, Compensation, and Liability act of 1980 (Superfund Act) -- A.2.4 Executive Order 13423: Strengthening Federal Environmental, Energy and Transportation Management -- A.2.5 ISO27000 Information Security Management Systems (ISMS).
A.2.6 The National Strategy for the Physical Protection of Critical Infrastructure and Key Assets -- A.2.7 2009 National Infrastructure Protection Plan -- A.2.8 North American Electric Reliability Corporation (NERC) -- A.2.9 U.S. Security and Exchange Commission -- A.2.10 Sound Practices to Strengthen in the Resilience of the U.S. Financial System -- A.2.11 C4 Command, Control, Communications, Computers and Intelligence -- A.2.12 Basel II Accord -- A.2.13 National Institute of Standards and Technology (NIST) -- A.2.14 Business Continuity Management Agencies and Regulating Organizations -- A.2.15 FFIEC - Federal Financial Institution Examination Council -- A.2.16 National Fire Prevention Association 1600 - Standard on Disaster/Emergency Management and Business Continuity Programs -- A.2.17 Private Sector Preparedness Act -- A.3 Data Protection -- A.4 Encryption -- A.5 Protecting Critical Data through Security and Vaulting -- A.6 Conclusion -- Appendix B Mission Critical Questions -- Appendix C Airflow Management (A Systems Approach) -- C.1 Introduction -- C.2 Control is the Key -- C.3 Obtaining Control -- C.4 Air Management Technologies -- C.5 Conclusion.
Summary: An imperative, all-inclusive guide to designing, operating, and maintaining mission critical equipment and systemsThis proven guide offers a comprehensive study of the fundamentals of mission critical systems, which are designed to maintain ultra-high reliability, availability, and resiliency of electrical, mechanical, and digital systems and eliminate costly downtime. With an emphasis on clean energy and energy security, this Second Edition offers insight into the mission critical environment, featuring the industry improvements, standards, and techniques prevalent today. The author draws upon decades of experience in mission critical facilities engineering, offering recommendations for maintaining essential operations based on his firsthand knowledge of what does and does not work. Practical in focus, the text helps readers configure and customize their designs to correspond to their organizations' unique needs and risk tolerance. Most chapters in this text concentrate on an individual component of the mission critical system, including standby generators; automatic transfer switches; uninterruptible power supplies; fuel, fire, and battery systems; energy security; and data center cooling, along with other common challenges facing industry engineers. For each component, the author sets forth applications, available models, design choices, standard operating procedures, emergency action plans, maintenance procedures, and applicable codes and standards. This new edition emphasizes green technologies and certifications, illustrating alternative strategies for generating power in a cleaner, more efficient manner while maintaining business reliability and resiliency. New chapters on energy security and integrating clean energy into mission critical applications have been added. A description of the U.S. energy infrastructure's dependency on oil in relation to energy security in the mission critical industry is discussed. In addition, extensive photographs and diagrams illustrate how individual components and integrated systems work, and the author highlights measures that are mandated by policy and regulation.In today's global digital economy and 24/7 business operations, mission critical systems are at the forefront of concerns among both private and public operations. Architects, property managers, facility managers, building engineers, information technology professionals, data center personnel, and electrical and mechanical technicians will consult this text regularly to ensure the protection of operations and to reduce human error, equipment failures, and other critical events. This guide is also an ideal textbook for students in undergraduate, graduate, or continuing education programs.
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Includes bibliographical references.

Chapter 1 An Overview of Reliability and Resiliency in Today's Mission Critical Environment -- 1.1 Introduction -- 1.2 Risk Assessment -- 1.3 Capital Cost versus Operation Cost -- 1.4 Critical Environment Workflow and Change Management -- 1.5 Testing and Commissioning -- 1.6 Documentation and Human Factor -- 1.7 Education and Training -- 1.8 Operation and Maintenance -- 1.9 Employee Certification -- 1.10 Standard and Benchmarking -- 1.11 Conclusion -- 1.12 Risk Analysis and Improvement -- Chapter 2 Energy Security and its Effect on Business Resiliency -- 2.1 Introduction -- 2.2 Risks Related to Information Security -- 2.3 How Risks are Addressed -- 2.4 Use of Distributed Generation -- 2.5 Documentation and Its Relation to Information Security -- 2.6 Smart Grid -- 2.7 Conclusion -- 2.8 Risk Analysis and Improvement -- Chapter 3 Mission Critical Engineering with an Overview of Green Technologies -- 3.1 Introduction -- 3.2 Companies' Expectations; Risk Tolerance and Reliability -- 3.3 Identifying the Appropriate Redundancy in a Mission Critical Facility -- 3.4 Improving Reliability, Maintainability, and Proactive Preventative Maintenance -- 3.5 The Mission Critical Facilities Manager and the Importance of the Boardroom -- 3.6 Quantifying Reliability and Availability -- 3.7 Design Considerations for the Mission Critical Data Center -- 3.8 The Evolution of Mission Critical Facility Design -- 3.9 Human Factors and the Commissioning Process -- 3.10 Short Circuit and Coordination Studies -- 3.11 Introduction to Direct Current in the Data Center -- 3.12 Containerized Systems Overview -- 3.13 Conclusion -- Chapter 4 Mission Critical Electrical System Maintenance and Safety -- 4.1 Introduction -- 4.2 The History of the Maintenance Supervisor and the Evolution of the Mission Critical Facilities Engineer -- 4.3 Internal Building Deficiencies and Analysis -- 4.4 Evaluating Your System -- 4.5 Choosing a Maintenance Approach -- 4.6 Safe Electrical Maintenance -- 4.7 Maintenance of Typical Electrical Distribution Equipment.

4.8 Being Proactive In Evaluating the Test Reports -- 4.9 Conclusion -- Chapter 5 Standby Generators: Operations and Maintenance -- 5.1 Introduction -- 5.2 The Necessity for Standby Power -- 5.3 Emergency, Legally Required, and Optional Systems -- 5.4 Standby Systems That Are Legally Required -- 5.5 Optional Standby Systems -- 5.6 Understanding Your Power Requirements -- 5.7 Management Commitment and Training -- 5.8 Standby Generator Systems Maintenance Procedures -- 5.9 Documentation Plan -- 5.10 Emergency Procedures -- 5.11 Cold Start and Load Acceptance -- 5.12 Non-Linear Load Problems -- 5.13 Conclusion -- Chapter 6 Fuel Systems Design and Maintenance -- 6.1 Introduction -- 6.2 Brief Discussion on Diesel Engines -- 6.3 Bulk Storage Tank Selection -- 6.4 Codes and Standards -- 6.5 Recommended Practices for All Tanks -- 6.6 Fuel Distribution System Configuration -- 6.7 Day Tank Control System -- 6.8 Diesel Fuel and A Fuel Quality Assurance Program -- 6.9 Conclusion -- Chapter 7 Power Transfer Switch Technology, Applications, and Maintenance -- 7.1 Introduction -- 7.2 Transfer Witch Technology and Applications -- 7.3 Types of Power Transfer Switches -- 7.4 Control Devices -- 7.5 Design Features -- 7.6 Additional Characteristics and Ratings of ATS -- 7.7 Installation and Commissioning, Maintenance, and Safety -- 7.8 General Recommendations -- 7.9 Conclusion -- Chapter 8 The Static Transfer Switch -- 8.1 Introduction -- 8.2 Overview -- 8.3 Typical Static Switch One Line -- 8.4 STS Technology and Application -- 8.5 Testing -- 8.6 Conclusion -- Chapter 9 The Fundamentals of Power Quality -- 9.1 Introduction -- 9.2 Electricity Basics -- 9.3 Transmission of Power -- 9.4 Understanding Power Problems -- 9.5 Tolerances of Computer Equipment -- 9.6 Power Monitoring -- 9.7 The Deregulation Wildcard -- 9.8 Conclusion -- Chapter 10 UPS Systems: Applications and Maintenance with an Overview of Green Technologies -- 10.1 Introduction -- 10.2 Purpose of UPS Systems -- 10.3 General Description of UPS Systems.

10.4 Components of a Static UPS System -- 10.5 Line Interactive UPS System -- 10.6 Offline (Standby) -- 10.7 The Evolution of Static UPS Technology -- 10.8 Rotary System -- 10.9 Redundancy, Configurations, and Topology -- 10.10 Energy Storage Devices -- 10.11 UPS Maintenance and Testing -- 10.12 Static UPS and Maintenance -- 10.13 UPS Management -- 10.14 Conclusion -- Chapter 11 Data Center Cooling Systems -- 11.1 Introduction -- 11.2 Background Information -- 11.3 Cooling Within Datacom Rooms -- 11.4 Cooling Systems -- 11.5 Components Outside the Datacom Room -- 11.6 Components Inside Datacom Rooms -- 11.7 Conclusion -- Chapter 12 Data Center Cooling Efficiency and Advanced Technology -- 12.1 Introduction -- 12.2 Heat Transfer inside Data Centers -- 12.3 Cooling and other Airflow Topics -- 12.4 Design Approaches for Data Center Cooling -- 12.5 Additional Considerations -- 12.6 Hardware and Associated Efficiencies -- 12.7 Best Practices -- 12.8 Efficiency Problem Solving -- 12.9 Conclusion -- 12.10 Conversions, Formulas, Guidelines -- Chapter 13 Raised Access Floors -- 13.1 Introduction -- 13.2 Design Considerations -- 13.3 Safety Concerns -- 13.4 Panel Cutting -- 13.5 Access Floor Maintenance -- 13.6 Troubleshooting -- 13.7 Additional Design Considerations -- 13.8 Conclusion -- Chapter 14 Fire Protection in Mission Critical Infrastructures -- 14.1 Introduction -- 14.2 Philosophy -- 14.3 Alarm and Notification -- 14.4 Early Detections -- 14.5 Fire Suppression -- 14.6 System Designs -- 14.7 Fire Detection -- 14.8 Fire Suppression Systems -- References -- APPENDICES -- Appendix A Policies and Regulations -- A.1 Introduction -- A.2 Industry Policies and Regulations -- A.2.1 USA Patriot Act -- A.2.2 Sarbanes-Oxley Act (SOX) -- A.2.3 Comprehensive Environmental Response, Compensation, and Liability act of 1980 (Superfund Act) -- A.2.4 Executive Order 13423: Strengthening Federal Environmental, Energy and Transportation Management -- A.2.5 ISO27000 Information Security Management Systems (ISMS).

A.2.6 The National Strategy for the Physical Protection of Critical Infrastructure and Key Assets -- A.2.7 2009 National Infrastructure Protection Plan -- A.2.8 North American Electric Reliability Corporation (NERC) -- A.2.9 U.S. Security and Exchange Commission -- A.2.10 Sound Practices to Strengthen in the Resilience of the U.S. Financial System -- A.2.11 C4 Command, Control, Communications, Computers and Intelligence -- A.2.12 Basel II Accord -- A.2.13 National Institute of Standards and Technology (NIST) -- A.2.14 Business Continuity Management Agencies and Regulating Organizations -- A.2.15 FFIEC - Federal Financial Institution Examination Council -- A.2.16 National Fire Prevention Association 1600 - Standard on Disaster/Emergency Management and Business Continuity Programs -- A.2.17 Private Sector Preparedness Act -- A.3 Data Protection -- A.4 Encryption -- A.5 Protecting Critical Data through Security and Vaulting -- A.6 Conclusion -- Appendix B Mission Critical Questions -- Appendix C Airflow Management (A Systems Approach) -- C.1 Introduction -- C.2 Control is the Key -- C.3 Obtaining Control -- C.4 Air Management Technologies -- C.5 Conclusion.

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An imperative, all-inclusive guide to designing, operating, and maintaining mission critical equipment and systemsThis proven guide offers a comprehensive study of the fundamentals of mission critical systems, which are designed to maintain ultra-high reliability, availability, and resiliency of electrical, mechanical, and digital systems and eliminate costly downtime. With an emphasis on clean energy and energy security, this Second Edition offers insight into the mission critical environment, featuring the industry improvements, standards, and techniques prevalent today. The author draws upon decades of experience in mission critical facilities engineering, offering recommendations for maintaining essential operations based on his firsthand knowledge of what does and does not work. Practical in focus, the text helps readers configure and customize their designs to correspond to their organizations' unique needs and risk tolerance. Most chapters in this text concentrate on an individual component of the mission critical system, including standby generators; automatic transfer switches; uninterruptible power supplies; fuel, fire, and battery systems; energy security; and data center cooling, along with other common challenges facing industry engineers. For each component, the author sets forth applications, available models, design choices, standard operating procedures, emergency action plans, maintenance procedures, and applicable codes and standards. This new edition emphasizes green technologies and certifications, illustrating alternative strategies for generating power in a cleaner, more efficient manner while maintaining business reliability and resiliency. New chapters on energy security and integrating clean energy into mission critical applications have been added. A description of the U.S. energy infrastructure's dependency on oil in relation to energy security in the mission critical industry is discussed. In addition, extensive photographs and diagrams illustrate how individual components and integrated systems work, and the author highlights measures that are mandated by policy and regulation.In today's global digital economy and 24/7 business operations, mission critical systems are at the forefront of concerns among both private and public operations. Architects, property managers, facility managers, building engineers, information technology professionals, data center personnel, and electrical and mechanical technicians will consult this text regularly to ensure the protection of operations and to reduce human error, equipment failures, and other critical events. This guide is also an ideal textbook for students in undergraduate, graduate, or continuing education programs.

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