Teaches scientists and engineers leadership skills and problem solving to facilitate management of team members, faculty, and staff

This textbook introduces readers to open-ended problems focused on interactions between technical and nontechnical colleagues, bosses, and subordinates. It does this through mini case studies that illustrate scenarios where simple, clear, or exact solutions are not evident. By offering examples of dilemmas in technical leadership along with selected analyses of possible ways to address or consider such issues, aspiring or current leaders are made aware of the types of problems they may encounter. This situational approach also allows the development of methodologies to address these issues as well as future variations or new issues that may arise.

Leadership by Engineers and Scientists guides and facilitates approaches to solving leadership/people problems encountered by technically trained individuals. Students and practicing engineers will learn leadership by being asked to consider specific situations, debate how to deal with these issues, and then make decisions based on what they have learned. Readers will learn technical leadership fundamentals; ethics and professionalism; time management; building trust and credibility; risk taking; leadership through questions; creating a vision; team building and teamwork; running an effective meeting; conflict management and resolution; communication; and presenting difficult messages.

• Describes positive traits and characteristics that technically-trained individuals bring to leadership positions, indicates how to use these skills, and describes attitudes and approaches necessary for effectively serving as leaders
• Covers negative traits and characteristics that can be detrimental when applied to dealing with others in their role as leaders
• Discusses situations and circumstances routinely encountered by new and experienced leaders of small teams
• Facilitates successful transitions into leadership and management positions by individuals with technical backgrounds
• Indicates how decisions can be reached when constraints of different personalities, time frames, economics, and organization politics and culture inhibit consensus
• Augments technical training by building awareness of the criticality of people skills in effective leadership

Leadership by Engineers and Scientists is an excellent text for technically trained individuals who are considering, anticipating, or have recently been promoted to formal leadership positions in industry or academia.

This book is an update and expansion of topics covered in Guidelines for Mechanical Integrity Systems (2006). The new book is consistent with Risk-Based Process Safety and Life Cycle approaches and includes details on failure modes and mechanisms. Also, example testing an inspection programs is included for various types of equipment and systems. Guidance and examples are provided for selecting and maintaining critical safety systems.

• Provides an overall approach to energy management and places the technical issues that drive energy efficiency in context
• Combines the perspectives of freewheeling consultants and corporate insiders
• In two sections, the book provides the organizational framework (Section 1) within which the technical aspects of energy management, described in Section 2, can be most effectively executed
• Includes success stories from three very different companies that have achieved excellence in their energy management efforts
• Covers energy management, including the role of the energy manager, designing and implementing energy management programs, energy benchmarking, reporting, and energy management systems
• Technical topics cover efficiency improvement opportunities in a wide range of utility systems and process equipment types, as well as techniques to improve process design and operation

Aspen Plus is one of the most popular process simulation software programs used industrially and academically. The book is designed to enable chemical engineers to go through a step-by-step process of learning the basic ideas underlying chemical process simulation, by studying the primary functions of the Aspen Plus software. Because of the major changes Aspen Technology has made in the user's interface in release 8.x, parts of the first edition which is based on release 7.x have become obsolete. However much of the scientific and engineering material has not changed; for example the material describing the distillation modules is completely suitable for self-study however some of the displays have changed. New chapters include Equation-Oriented Simulation, Electrolytes, and an appendix on The NIST Thermo Data Engine as a data source.

Each chapter starts with the equivalent of a classroom lecture followed by workshops which provide experience in the chapter's subject matter. The downloadable files contain solutions, both in Aspen Plus and text formats, to examples imbedded in the text as well as to all the workshops. There are also notes at the end of each chapter designed to aid readers that have difficulty with the workshops.

Use this guideline to develop an effective Process Safety Knowledge Management system

When managing the risks of hazardous materials and energies, a well-developed process safety program is critical for maintaining a healthy workforce, for protecting the environment, and for sustaining the business. The Center for Chemical Process Safety (CCPS) has identified Process Knowledge Management as one of its twenty Elements in its Risk Based Process Safety (RBPS) approach. With an effective Process Safety Knowledge Management (PSKM) system, an organization will be able to capture, organize, maintain, and access its technical, engineering, and administrative information. Thus, an effective PSKM system will help an organization successfully manage its risks.

This book provides a set of comprehensive guidelines for implementing a Process Safety Knowledge Management (PSKM) system, which will help an organization improve its process safety performance. The book begins with a discussion on the characteristics of a PSKM system. Then it describes the underlying factors for successful implementation and ends with guidance on overcoming common implementation difficulties. Produced by a leading global process safety organization, this book is essential for any organization looking to ensure that systems are in place to sustain their process safety knowledge during the life of the process.

Guidelines for Process Safety Knowledge Management readers will also find:

• Case studies throughout the book, with PSKM-related lessons
• Detailed discussions of how a PSKM system helps cultivate leadership, improves organizational culture, and involves employees
• A business case for PSKM, demonstrating the benefits to the business

Guidelines for Process Safety Knowledge Management is ideal for process safety professionals, engineering managers, facility managers, maintenance managers, production managers, and others responsible for creating or managing their process safety knowledge management systems.

• Written by a committee of safety professionals, this book creates a foundation document for the development and application of risk tolerance criteria
• Helps safety managers evaluate the frequency, severity and consequence of human injury
• Includes examples of risk tolerance criteria used by NASA, Earthquake Response teams and the International Maritime Organization, amongst others
• Helps achieve consistency in risk-based decision-making
• Reduces potential liabilities in the use of quantitative risk tolerance criteria through reference to an industry guidance document

This book provides a comprehensive treatment of investing chemical processing incidents. It presents on-the-job information, techniques, and examples that support successful investigations. Issues related to identification and classification of incidents (including near misses), notifications and initial response, assignment of an investigation team, preservation and control of an incident scene, collecting and documenting evidence, interviewing witnesses, determining what happened, identifying root causes, developing recommendations, effectively implementing recommendation, communicating investigation findings, and improving the investigation process are addressed in the third edition.

A comprehensive guide to the future of process fault diagnosis

Automation has revolutionized every aspect of industrial production, from the accumulation of raw materials to quality control inspections. Even process analysis itself has become subject to automated efficiencies, in the form of process fault analyzers, i.e., computer programs capable of analyzing process plant operations to identify faults, improve safety, and enhance productivity. Prohibitive cost and challenges of application have prevented widespread industry adoption of this technology, but recent advances in artificial intelligence promise to place these programs at the center of manufacturing process analysis.

Artificial Intelligence in Process Fault Diagnosis brings together insights from data science and machine learning to deliver an effective introduction to these advances and their potential applications. Balancing theory and practice, it walks readers through the process of choosing an ideal diagnostic methodology and the creation of intelligent computer programs. The result promises to place readers at the forefront of this revolution in manufacturing.

Artificial Intelligence in Process Fault Diagnosis readers will also find:

• Coverage of various AI-based diagnostic methodologies elaborated by leading experts
• Guidance for creating programs that can prevent catastrophic operating disasters, reduce downtime after emergency process shutdowns, and more
• Comprehensive overview of optimized best practices

Artificial Intelligence in Process Fault Diagnosis is ideal for process control engineers, operating engineers working with processing industrial plants, and plant managers and operators throughout the various process industries.

• Emphasizes, in a direct and uncomplicated way, how executives can identify, understand, assess, and mitigate risks associated with cybersecurity issues
• Covers 'What to Do When You Get Hacked?' including Business Continuity and Disaster Recovery planning, Public Relations, Legal and Regulatory issues, and Notifications and Disclosures
• Provides steps for integrating cybersecurity into Strategy; Policy and Guidelines; Change Management and Personnel Management
• Identifies cybersecurity best practices that executives can and should use both in the office and at home to protect their vital information

The book discusses why management of abnormal situations is important to process safety. The book provides guidance on practical steps to avoid or mitigate an accident or incident before it escalates into a more dangerous and costly issues which can include downtime, lost production, equipment damage, injuries, and external/ environmental damage. Through the use of case studies the book illustrates the impact these deviant occurrences can have on operating facilities.

Management principles that can be established before an issue occurs are presented while case studies are used to illustrate the impact that an abnormal situation can have on an operating facility. The impact of plant design are detailed, with separate focus points on new plant design and retrofits to existing plants. A section on writing plant procedures and plant policies so that they incorporate the principles of managing abnormal situations is also included.

Training content is provided on how to manage deviant situations, with guidance on presenting the information to specific target populations, such as front-line operators, operations managers, plant engineers, and process safety engineers. Readers are also shown tools that are currently available for recognizing and responding to abnormal situations, and actions that process safety engineers can use during Hazard Identification and Risk Analysis (HIRA).

Familiarizes an engineer new to process safety with the concept of process safety management

In this significantly revised second edition of Process Safety for Engineers: An Introduction, CCPS delivers a comprehensive book showing how Process Safety concepts are used to reduce operational risks. Students, new engineers, and others new to process safety will benefit from this book.

In this updated edition, each chapter begins with a detailed incident case study, provides steps that help address issues, and contains problem sets which can be assigned to students.

The second edition covers:

• Process Safety: including an overview of CCPS' Risk Based Process Safety
• Hazards: specifically fire and explosion, reactive chemical, and toxicity
• Design considerations for hazard control: including Hazard Identification and Risk Analysis
• Management of operational risk: including management of change

In addition, the book presents how Process Safety performance is monitored and sustained. The associated online resources are linked to the latest online CCPS resources and lectures.

The definitive leadership guide on safe practices

The release of chemicals and other hazardous materials pose significant, potentially catastrophic threats worldwide. An alarming number of such events, all of which are preventable, occur too often. Reducing the frequency of serious incidents is a fundamental responsibility of leadership at all levels, from frontline managers and supervisors to C-suite executives and the board of directors as well. Process Safety Leadership from the Boardroom to the Frontline is a practical, authoritative guide that clearly demonstrates how to create a viable culture of safety within an organization, implement and maintain disciplined management systems, and address the risks of process safety deficiencies.

The most important factor in any management system is leadership. For chemical process safety management, effective and informed leadership provides direction, reinforces commitment, and drives responsibility. Written by experts from the Center for Chemical Process Safety, the world's largest provider of engineering curriculum materials for process safety, this pragmatic book contains the critical information and guidelines required to lead and manage process safety. Detailed yet accessible chapters examine topics such as strengthening management system accountability, driving operation within constraints, ensuring corporate memory, verifying execution, and more. Designed to be frequently used, shared, and discussed by leadership teams throughout an organization, this indispensable resource:

• Demonstrates the many ways process safety benefits an organization, based on benchmarking and broad industrial experience
• Develops skills and expands knowledge needed to drive consistent, reliable process safety performance
• Describes essential behaviors and actions for leaders to drive excellence in process safety cultures and disciplined management systems
• Helps establish risk criteria and safeguards for companies
• Presents new and previously unpublished experiences, approaches, and thinking

Written for executives, plant leaders, functional managers, frontline supervisors and also individual contributors, Process Safety Leadership from the Boardroom to the Frontline provides a much-needed guide for instituting safe practices within a company.

The Center for Chemical Process Safety (CCPS) has been the world leader in developing and disseminating information on process safety management and technology since 1985. The CCPS, an industry technology alliance of the American Institute of Chemical Engineers (AIChE), has published over 100 books in its process safety guidelines and process safety concepts series, and over 10 training modules through its Safety in Chemical Engineering Education (SAChE) series.

More Incidents that Define Process Safety book describes over 50 incidents which have had a significant impact on the chemical industry as well as the basic elements of process safety. Each incident is presented in sufficient detail to gain an understanding of root causes for the event with a focus on lessons learned and the impact the incident had on process safety. Incidents are grouped by incident type including Reactive chemical; Fires; Explosions; Environmental/toxic releases; and Transportation incidents. The book also covers incidents from other industries that illustrate the safety management elements.

The book builds on the first volume and adds incidents from China, India, Italy and Japan. Further at the time the first volume was being written, CCPS was developing a new generation of process safety management elements that were presented as risk based process safety; these elements are addressed in the incidents covered.

A comprehensive and example oriented text for the study of chemical process design and simulation

Chemical Process Design and Simulation is an accessible guide that offers information on the most important principles of chemical engineering design and includes illustrative examples of their application that uses simulation software. A comprehensive and practical resource, the text uses both Aspen Plus and Aspen Hysys simulation software.

The author describes the basic methodologies for computer aided design and offers a description of the basic steps of process simulation in Aspen Plus and Aspen Hysys. The text reviews the design and simulation of individual simple unit operations that includes a mathematical model of each unit operation such as reactors, separators, and heat exchangers. The author also explores the design of new plants and simulation of existing plants where conventional chemicals and material mixtures with measurable compositions are used. In addition, to aid in comprehension, solutions to examples of real problems are included. The final section covers plant design and simulation of processes using nonconventional components. This important resource:

• Includes information on the application of both the Aspen Plus and Aspen Hysys software that enables a comparison of the two software systems
• Combines the basic theoretical principles of chemical process and design with real-world examples
• Covers both processes with conventional organic chemicals and processes with more complex materials such as solids, oil blends, polymers and electrolytes
• Presents examples that are solved using a new version of Aspen software, ASPEN One 9

Written for students and academics in the field of process design, Chemical Process Design and Simulation is a practical and accessible guide to the chemical process design and simulation using proven software.

Complemented by an estimating tool spreadsheet based on a fixed set of chemicals to assist in risk estimations, Probability of Ignition of a Released Flammable Mass converts a best guess to a calculated value based on available information and current technology. The text documents and explains the science and background of the technology-based approach. The tool, when populated with appropriate data, yields an estimate of the probability that a defined release of a flammable material will ignite if exposed to an ignition source. This information can be used to make risk assessments with a higher degree of confidence than estimates made before and it provides valuable information for use in the development of a facility's Emergency Response Plan.

Discover the inventions that have made our world what it is today

A great invention opens the door to a new era in human history. The stone axe, for example, invented some 2 million years ago in East Africa, enabled us to enter the human path of endless improvements through inventions. The taming of fire enabled us to cook food as well as leave the warmth of Africa and move to the frigid lands of the North. From the stone axe to the computer and the Internet, this book provides a fascinating tour of the most important inventions and inventors throughout history. You'll discover the landmark achievements and the men and women that made the world what it is today.

Great Inventions That Changed the World is written by Professor James Wei, a renowned educator and engineer who holds several patents for his own inventions. Following an introductory chapter examining the role of inventors and inventions in fueling innovation and global advancement, the book is organized to show how inventions are spurred by human needs and desires, including:

• Work
• Food, clothing, and housing
• Health and reproduction
• Security
• Transportation
• Information
• The good life

As you progress through the book, you'll not only learn about inventions and inventors, but also the impact they have had on our lives and the society and environment in which we live today.

Inventions solve problems, but as this book so expertly demonstrates, they can also directly or indirectly create new problems as well, from pollution to global warming to bioterrorism. By enabling us to understand the impact of inventions throughout history, this book can help guide the next generation of citizens, decision makers, and inventors.