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A "how-to" reference to help compressed air users and service providers improve the operating efficiencies and reliability of their air compressor and compressed air systems. The manual contains more than 300 pages original text, reference appendices, photos, and performance data.
Compressed air systems are the third most important utility to industry and are commonly the most misunderstood. Written to appeal to operators, mechanics and junior engineers, this manual is designed to provide a solid understanding of common compression systems and operations techniques. Using this book, the users learn tips and techniques for: creating a baseline of system performance, determining the impact of different compressors and compressor control types for the job at hand, and learning basic approaches to general maintenance.
Compressed air has many applications in industry. Delivering compressed air to a manufacturing facility is an expensive operation and it requires costly equipment that consumes significant amounts of electricity and needs frequent maintenance. Roughly 80 to 90 percent of the electricity used to operate compressed air systems is converted to low-temperature waste heat. This lost energy can quickly add up, each year costing individual facilities as much as double the purchase and installation cost (first-cost) of the entire system. The ideal time to think about your compressed air system is before it is installed.Air Compressors deserve independent treatment due to many reasons. There is a wider choice of different types of compressor designs each operating at different efficiencies and suitable for specific application. The type of compressor decided upon has direct implications on the lifetime energy costs. Also the decision as to a single compressor of large capacity versus multi-compressor installation where each compressor has a smaller capacity than the demand influences the possible energy savings considerably. This 6 -hour Quick Book Course provides comprehensive information on the compressed air systems. This course is relevant to anyone needing to know more about compressed air production and use, relevant health and safety issues, legislation and energy efficiency. Previous knowledge of the subject is not required.The book includes a multiple type quiz comprising 30 questions at the end. Learning ObjectiveAt the conclusion of this course, the student will: * Understand various types of compressors; their applications, advantages and limitations; * Understand various types of system controls - their pros and cons; * Understand how the control systems are matched to the needs of the users; * Understand the key components of compressed air system and learn how each component function; * Understand the air storage, air drying, piping, filtration and air cleaning methods; * Understand the limits of dew point suppression in refrigerant and desiccant dryers; * Understand the different types of filters and how coalescing filters benefit in removal of lubricant and moisture; * Understand the difference between SCFM, ICFM and ACFM; * Understand the pros and cons of single loop verses ring main systems; * Understand how to quantify and select appropriate compressor for base and trim demand; * Understand what features to specify and what information to seek when making a compressed air proposal; * Understand the compressed air system assessment procedure and energy audit methodology; * Understand the common losses in compressed air systems and the ways to conserve energy; * Understand the routine maintenance schedule for air compressors; * Learn a generic checklist for energy efficiency in compressed air system; * Understand the engineering formulae and technical relationship between compressor motor power-draw and process variables; and * Learn by example the method for evaluating compressed air costs.
This book is a wide-ranging history of the wonders compressed air brought about and the suffering its unknown hazards inflicted. John L. Phillips explores the intertwining roles of science, technology, engineering, medicine, and politics in the invention of compressed air, the recognition and identification of decompression sickness, and the hundred-year-long process of learning to understand and treat the bends.
Over the last several years, manufacturers have expressed increasing interest in reducing their energy consumption and have begun to search for opportunities to reduce their energy usage. In this book, the authors explore a variety of opportunities to reduce the energy footprint of manufacturing. These opportunities cover the entire spatial scale of the manufacturing enterprise: from unit process-oriented approaches to enterprise-level strategies. Each chapter examines some aspect of this spatial scale, and discusses and describes the opportunities that exist at that level. Case studies demonstrate how the opportunity may be acted on with practical guidance on how to respond to these opportunities.