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Download Process Utility Systems by Jack Broughton for Free and Master Chemical Engineering

Process Utility Systems by Jack Broughton: A Comprehensive Guide

If you are a chemical engineer or a student of chemical engineering, you may have heard of the term "process utility systems". These are the systems that provide essential services such as compressed air, water, steam, cooling, heating, fire protection and more to the processing operations in chemical plants. In this article, we will explore what process utility systems are, why they are important for chemical engineering, who is Jack Broughton and what is his book about, and how to download the free.iso file of his book online.

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What are process utility systems?

Process utility systems are the systems that supply utilities such as compressed air, inert gases, water, heat and cooling to the processing operations in chemical plants. They are also known as auxiliary systems or service systems. They are essential for the safe, efficient and economical operation of chemical processes.

Definition and examples of process utility systems

According to Jack Broughton, the editor of the book Process Utility Systems: Introduction to Design, Operation and Maintenance, a process utility system can be defined as "a system that provides a service to a process but does not directly participate in it". For example, a steam system provides heat to a reactor but does not react with the chemicals inside it. A compressed air system provides power to pneumatic valves but does not affect the flow of fluids in the pipes.

Some common examples of process utility systems are:

  • Steam system: It generates, distributes and condenses steam for heating, power generation and other purposes.

  • Water system: It treats, distributes and recovers water for cooling, cleaning, fire fighting and other purposes.

  • Air system: It compresses, dries and distributes air for instrumentation, actuation and other purposes.

  • Nitrogen system: It produces, stores and distributes nitrogen for inerting, purging and blanketing purposes.

  • Cooling system: It transfers heat from process fluids to cooling media such as water or air.

  • Refrigeration system: It lowers the temperature of process fluids below ambient using refrigerants such as ammonia or freon.

  • Fire protection system: It detects, controls and extinguishes fires using water, foam or gas.

  • Building services system: It provides heating, ventilation and air conditioning (HVAC) to buildings and offices.

Why are process utility systems important for chemical engineering?

Process utility systems are important for chemical engineering because they:

  • Ensure the safety of personnel, equipment and environment by preventing or mitigating hazards such as fire, explosion or corrosion.

  • Improve the efficiency and quality of chemical processes by providing optimal conditions such as temperature, pressure and purity.

  • Reduce the operating costs and environmental impacts of chemical plants by minimizing energy consumption and waste generation.

  • Enhance the reliability and availability of chemical processes by avoiding downtime and maintenance issues.

Therefore, chemical engineers need to have a good understanding of the design, operation and maintenance of process utility systems.

Who is Jack Broughton and what is his book about?

Jack Broughton is a chemical engineer and a former lecturer at the University of Manchester Institute of Science and Technology (UMIST). He has over 40 years of experience in the chemical industry, working for companies such as ICI, Shell and BP. He is also a Fellow of the Institution of Chemical Engineers (IChemE) and a Chartered Engineer.

Biography and background of Jack Broughton

Jack Broughton was born in 1934 in Manchester, England. He graduated from UMIST with a BSc in Chemical Engineering in 1956 and a PhD in Chemical Engineering in 1960. He then joined ICI as a research engineer, working on various projects such as ammonia synthesis, gas separation and catalysis. He later moved to Shell, where he became the head of the Process Engineering Department at the Thornton Research Centre. He was involved in the development of new processes such as gas-to-liquids (GTL), coal liquefaction and biomass conversion. He also worked as a consultant for BP, advising on the design and operation of oil refineries and petrochemical plants.

In 1988, he retired from Shell and joined UMIST as a lecturer in Chemical Engineering. He taught courses on process design, process control, process safety and process utility systems. He also supervised research projects on topics such as heat transfer, fluid mechanics, thermodynamics and reaction engineering. He retired from UMIST in 1999, but continued to work as a consultant and trainer for various organizations.

He has published over 100 papers and books on various aspects of chemical engineering, including Process Utility Systems: Introduction to Design, Operation and Maintenance, which was published by IChemE in 1994.

Summary and main features of his book Process Utility Systems: Introduction to Design, Operation and Maintenance

Process Utility Systems: Introduction to Design, Operation and Maintenance is a book that provides both an aide-memoire for experienced engineers and an introduction to the subject for students and newcomers. It covers the basics of process utility systems and then goes further into the details of each system. It also includes practical examples, case studies, exercises and solutions.

The book consists of 12 chapters, each focusing on a different aspect of process utility systems:

  • Preface: It introduces the scope and objectives of the book.

  • Introduction: It defines what process utility systems are and why they are important for chemical engineering.

  • Air Preparation: It describes the production, treatment and distribution of compressed air for various purposes.

  • Inert Gas Systems: It explains the generation, storage and supply of inert gases such as nitrogen, carbon dioxide and argon.

  • Water Preparation: It discusses the treatment, distribution and recovery of water for different applications.

  • Thermal Fluid Systems: It examines the use of hot oil or molten salt as heat transfer media for high-temperature processes.

  • Steam Distribution: It analyzes the generation, distribution and condensation of steam for heating, power generation and other purposes.

  • Air and Water Cooling: It explores the methods of cooling process fluids using air or water as cooling media.

  • Refrigeration: It investigates the principles and applications of refrigeration systems using various refrigerants.

  • Fire Protection Systems: It reviews the types and functions of fire protection systems using water, foam or gas.

  • Building Services: Heating, Ventilation and Air Conditioning (HVAC): It outlines the design and operation of HVAC systems for buildings and offices.

  • Pipework and Safety: It covers the selection, installation and maintenance of pipes, valves, fittings and safety devices for process utility systems.

The book also contains two appendices:

  • Appendix 1: Process Utility Summary Sheets: It provides concise summaries of the main features and data of each process utility system.

  • Appendix 2: Main Conversion Factors: It lists the conversion factors for common units used in process utility systems.

The book is written in a clear, concise and practical style, with plenty of diagrams, tables and charts to illustrate the concepts. It is suitable for both self-study and classroom use. It is also a valuable reference for engineers working in the chemical industry or related fields.

How to download the free.iso file of the book?

If you are interested in reading Process Utility Systems by Jack Broughton, you may be wondering how to download the free.iso file of the book online. An iso file is an image file that 71b2f0854b


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