For years I have wanted to immortalize my thoughts as a handbook for my loving daughter Jacqui. Having been a polio survivor being stricken in 1953 at 7 months old, I had to learn much about survival, caring, adapting, loving, leading, and so much more. As one of the younger survivors of polio (vaccine came out a few months after I contracted this deadly and crippling disease) I naturally learned quickly about "odds" and statistics; which is to say they're meaningless if you are the one who falls on the wrong side of probability I have survived many things in life and have achieved many things in life (polio survivors are known to be over achievers .... statistically of course). I have learned much along the way with both my successes and failures. The main thing I learned is how to beat the odds which turned out to be very simple; NEVER GIVE UP. This book is a compilation of various notes I want my daughter Jacqui to remember even when I'm long gone. My style of writing is free flowing for easy reading and understanding. The chapters in the book have no particular order be it chronological or otherwise. Instead they are in the order of my mood and inspiration at the time I sat down at my keyboard. I write from the heart as I approach all things in my life. My brain shows me the options but my heart makes the decision. This has proved to be a very effective approach and has made me successful in many ways. I live by a concept that I always knew but the great motivator Anthony Robbins coined or immortalized the best phrase that describes it all: "Live with Passion." So, buckle your seatbelts; put on your reading glasses; relax and enjoy. I waited and thought about this project for a long time so I hope you learn something and to my daughter, this is what I leave to you as the history of your dad and the "guide to life according to Pops."

Leading people in today's complex world is challenging. There are regulations, unions, lawyers, and more to deal with on a daily basis. Written by a longtime human resources consultant, this guidebook helps you develop your leadership skills so you can recruit qualified applicants; interview candidates with confidence; hire the right people; train new employees and keep the best performers; deal with unions; and stay out of court.

In addition to the basics, you'll learn how to respond to situations that catch you off guard. For instance, what do you do if your best employee tells you that he or she is leaving to join a competitor? What if one of your employees takes a public stand against one of your policies? What if someone you fire for theft hires a lawyer who sends you a nasty letter?

Other textbooks on human resources management focus on theories and statistics, but "A Practical Guide to Human Resources Management "provides real-life examples to help you handle any situation with leadership that inspires confidence.

A HANDS-ON MANUAL FOR THE SAFETY AND DESIGN OF COMPLEX PROCESS VENTING SYSTEMS

Process vent header collection systems are subject to continually varying compositions and flow rates and thus present significant challenges for safe design. Due to increasingly demanding safety, health, environmental, and property protection requirements, today's industrial designers are faced with the need

to create increasingly complex systems for more effective treatment, dispersal, or disposal of process gases.

Safe Design and Operation of Process Vents and Emission Control Systems provides cutting-edgeguidance for the design, evaluation, and operation of these systems, with emphasis on: Preventing fires, explosions, and toxic releases Maintaining safe vent conditions Understanding normal process operations, such as intentional routine controlled venting and emergency operations, like overpressure relief Mitigating the impacts of end-of-line treatment devices, such as scrubbers, flares, and thermal oxidizers, on the vent header system Complying with regulations

Written by a team of process safety experts from the chemical, pharmaceutical, and petroleum industries, the book includes a wealth of real-world examples and a thorough overview of the tools and methods used in the profession.

The EPA investigation of a 1994 chemical plant tragedy concluded that "the explosion resulted from a lack of written safe operating procedures..." While good written procedures can't guarantee zero accidents, they can reduce the number of accidents caused by human error. This new book shows how to remedy this problem through selecting and implementing actions that promote safe, efficient operations and maintenance, improve quality, continuity, profitability and cost control, build upon and record process experience, and promote the concept that operating and maintenance procedures are vital plant components. It includes practical samples of procedure formats, checklists and many references.

* 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

First-line managers have to maintain the integrity of facilities, control manufacturing processes, and handle unusual or emergency situations, as well as respond to the pressures of production demand. On a daily basis, they are closest to the operating personnel who may be injured by a process accident, and they are in the best position to spot problem conditions and to act to contain them. This book offers these managers "how-to" information on process safety management program execution in the operations and maintenance departments, recommending technical and administrative process safety activities for the entire life cycle of the plant. Helpful tables and references add to the value of this process safety resource.

Siting of permanent and temporary buildings in process areas requires careful consideration of potential effects of explosions and fires arising from accidental release of flammable materials. This book, which updates the 1996 edition, provides a single-source reference that explains the American Petroleum Institute (API) permanent (752) and temporary (753) building recommended practices and details how to implement them. New coverage on toxicity and updated standards are also highlighted. Practical and easy-to-use, this reliable guide is a must-have for implementing safe building practices.

Almost all the major accident investigations--Texas City, Piper Alpha, the Phillips 66 explosion, Feyzin, Mexico City--show human error as the principal cause, either in design, operations, maintenance, or the management of safety. This book provides practical advice that can substantially reduce human error at all levels. In eight chapters--packed with case studies and examples of simple and advanced techniques for new and existing systems--the book challenges the assumption that human error is "unavoidable." Instead, it suggests a systems perspective. This view sees error as a consequence of a mismatch between human capabilities and demands and inappropriate organizational culture. This makes error a manageable factor and, therefore, avoidable.

Over the years, companies have developed independent systems for managing process safety, environment, health, safety, and quality. Many aspects of these management systems are similar. Integrating EHS management systems can yield economies and improved system effectiveness. This book explains how integration reduces cost of delivery through a reduction in the number of management program steps and avoidance of redundancy; how it results in more effective programs, since the best practices can be combined into a single process; and how this integration brings a faster, and more cost effective response to new demands.

At last, a book that covers safety procedures and standards with information that is rarely available outside of proprietary materials. A comprehensive source for basic and essential operations and procedures in use in any facility, the book offers chemical operators and first line supervisors guidance in applying appropriate practices to prevent accidents, and suggests which practices to avoid.

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.

This book puts together a body of very recent information never before presented in one volume on the design of post-release mitigation systems. The development of a fundamental knowledge base on post-release mitigation systems, through testing and data correlation, is very new. While further research and development is needed, this practical work offers guidance on putting post-release countermeasures to work now. The book presents current engineering methods for minimizing the consequences of the release of toxic vapors, or ignition of flammable vapors, including passive and active systems intended to reduce or eliminate significant acute effects of a dispersing vapor cloud in the plant facility, or into the surrounding community. As in all CCPS works, the book emphasizes planning and a systems approach, shows limitations of any methods discussed, and provides numerous references so that the reader may continue to learn.

Batch reaction systems pose unique challenges to process safety managers because they do not operate in a steady state. The sequence of processing steps, and frequent start-ups and shutdowns, increase the possibility of human errors and equipment failures. And, since batch plants are often designed for shared use, frequent modification of piping and layout may occur, resulting in complex "management of change" issues. This book identifies the singular concerns of batch reaction systems--including potential sources of unsafe conditions--and provides a "how-to" guide for the practicing engineer in dealing with them by applying appropriate practices to prevent accidents.

"Incidents That Define Process Safety" describes approximately fifty incidents that have had a significant impact on the chemical and refining industries' approaches to modern process safety. Events are described in detail so readers get a fundamental understanding of the root causes, the consequences, the lessons learned, and actions that can prevent a recurrence. There are exhaustive investigative reports about these events, allowing you to apply the resulting safety principles to their current operations.

A comprehensive understanding of the potential dangers inherent in warehousing chemicals is the first step in managing the associated risks. Written by industry professionals for warehouse operators, designers, and all who are concerned with the safe warehousing of chemicals, this book offers a performance-based approach to such hazards as health effects, environmental pollution, fire, and explosion, and presents practical means to minimize the risk of these hazards to employees, the surrounding population, the environment, property, and business operations. These basic precepts can be used to evaluate the risks in initial or existing designs for warehousing facilities on a manufacturing site, for freestanding offsite buildings, and for strictly chemical or mixed-use storage. Each of the book's ten chapters has a list of references and suggestions for further reading. The numerous topics covered make this book invaluable for warehousing designers and operators.

Written by reliability data experts, the book gives plant managers and supervisors the guidance they need to collect, and use with confidence, process equipment reliability data for risk-based decisions. Focusing on the process industries, it provides the protocol and techniques to collect and organize high quality plant performance, maintenance, and repair data from your own operations, and includes methods and examples on how the data can be converted into useful information for engineering, maintenance, safety, and loss prevention. This data can be used for: facility reliability/availability assessments; making decisions on the need for redundant systems; improving equipment designs; selecting the best equipment for specific tasks; estimating required work force; benchmarking current efforts both frequency and time; integrating predictive and preventive maintenance effort; integrating shutdowns with production needs; quantifying risks; and minimizing human reliability issues.

The book supplements "Guidelines for Chemical Process Quantitative Risk Analysis" by providing the failure rate data needed to perform a chemical process quantitative risk analysis.

New perspectives on how to successfully drive changes in companies' process safety management systems Simply learning from process safety incidents has proven to be insufficient to drive performance improvements. To truly change, organizations must seek out & embed learnings in their programs & systems. This book picks up from previous CCPS books, Incidents That Define Process Safety and Investigating Process Safety Incidents. This important book: Offers guidelines for improving process safety performance by embedding the lessons learned from publicly available investigations Recommends a continuous improvement learning model focused on organizational learning Provides examples for using the model's techniques to drive -continuous improvements Contains an index of more than 400 investigated incidents and introduces the concept of Drilldown to help find lessons that might not have been mentioned before. Written for safety professionals and process safety consultants, Driving Continuous Process Safety Improvement from Investigated Incidents is a hands-on guide for adopting a model for successfully driving the learnings from process safety incident investigations.

The process industry has developed integrated process safety management programs to reduce or eliminate incidents and major consequences, such as injury, loss of life, property damage, environmental harm, and business interruption. Good documentation practices are a crucial part of retaining past knowledge and experience, and avoiding relearning old lessons. Following an introduction, which offers examples of how proper documentation might have prevented major explosions and serious incidents, the 21 sections in this book clearly present aims, goals, and methodology in all areas of documentation. The text contains examples of dozens of needed forms, lists of relevant industry organizations, sources for software, references, OSHA regulations, sample plans, and more.

"Guidelines for Vapor Release Mitigation" is a survey of current industrial practice for controlling accidental releases of hazardous vapors and preventing their escape from the source area.

Prevent operational incidents and reduce risks with an essential CCPS guide You can help your company reduce its operating risks by learning how to effectively manage transient operations and avoid major incidents. Startups and shutdowns, known as transient operations, can be high-risk periods for manufacturing facilities. Guidelines for Process Safety During Transient Operations offers useful guidance in preparing for the safe startup and shutdown of chemical processes. With an understanding of the risks involved, you can work proactively to prevent fatalities, serious injuries, reduced productivity, and costly damage. This essential guide for plants provides clear examples of how to anticipate and avoid major issues. The book examines safe shutdown procedures in the event of an emergency. You will also gain direction on how to resume operations safely after an unexpected shutdown. The book supports anyone tasked with regulating and overseeing chemical plants and procedures, whether you are an engineer, manager, or government professional. Minimize operating risks through the effective management of transient operations Establish safe start-up and shutdown procedures for chemical processes Be ready to safely shut down processes in the event of an emergency Learn from real world examples of start-up or shutdown incidents Review procedures and engineering controls that help prevent or reduce the effects of incidents involving transient operations Guidelines for Process Safety comes to you from The Center for Chemical Process Safety (CCPS), which offers advanced thinking in the critical area of process safety. The organization develops technology and management practices for companies seeking to reduce hazards within the chemical and petrochemical industries.

This book presents a guidance on a large range of decision aids for risk analysts and decision makers in industry so that vital decisions can be made in a more consistent, logical, and rigorous manner. It provide good industry practices on how risk decision making is conducted in the chemical industry from many risk information sources as well as all the elements that need to be addressed to ensure good decisions are being made. Topics Include: Identifying Risk Decisions, A Risk Decision Strategy for Process Safety, Case Studies in Risk Decision Making Failures, Guidance on Selecting Decision Aids, Templates for Decision Making in Risk-Based Process Safety, Understanding Process Hazards & Worst Possible Consequences, Management of Change as an Exercise in Risk Identification, Inherently Safer Design as an Exercise in Risk Tradeoff Analysis, Using LOPA and Risk Matrices in Risk Decisions, Using CPQRA and Safety Risk Criteria in Risk Decisions, Group Decision Making, Avoiding Decision Traps, Documentation of Process Safety Risk Decisions

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.

Since the publication of the second edition several United States jurisdictions have mandated consideration of inherently safer design for certain facilities. Notable examples are the inherently safer technology (IST) review requirement in the New Jersey Toxic Chemical Prevention Act (TCPA), and the Inherently Safer Systems Analysis (ISSA) required by the Contra Costa County (California) Industrial Safety Ordinance. More recently, similar requirements have been proposed at the U.S. Federal level in the pending EPA Risk Management Plan (RMP) revisions. Since the concept of inherently safer design applies globally, with its origins in the United Kingdom, the book will apply globally. The new edition builds on the same philosophy as the first two editions, but further clarifies the concept with recent research, practitioner observations, added examples and industry methods, and discussions of security and regulatory issues. Inherently Safer Chemical Processes presents a holistic approach to making the development, manufacture, and use of chemicals safer. The main goal of this book is to help guide the future state of chemical process evolution by illustrating and emphasizing the merits of integrating inherently safer design process-related research, development, and design into a comprehensive process that balances safety, capital, and environmental concerns throughout the life cycle of the process. It discusses strategies of how to: substitute more benign chemicals at the development stage, minimize risk in the transportation of chemicals, use safer processing methods at the manufacturing stage, and decommission a manufacturing plant so that what is left behind does not endanger the public or environment.