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HVAC stands for (Heating, Ventilation & Air Conditioning) This course helps interested individuals learn about the HVAC industry. Companies can use this course to train their new employees who are entering the field of HVAC. The author has decided not to include mathematical formulas in this course to make it easier to comprehend for starters in this great industry.
This publication provides introductory technical guidance for mechanical engineers and other professional engineers and construction managers interested in design and construction of heating, ventilating and air conditioning (HVAC) systems for hospitals and medical and dental clinics. Here is what is discussed: 1. GENERAL 2. DESIGN CONDITIONS 3. REFRIGERANTS 4. LIFE-CYCLE-COST/ENERGY ANALYSIS 5. APPROPRIATE SPACES FOR AIR CONDITIONING 6. MECHANICAL EQUIPMENT SPACE 7. HVAC SYSTEM DESIGN FOR FUNCTIONAL AREAS 8. GENERAL DESIGN CONSIDERATIONS 9. HVAC SYSTEM CONTROLS 10. STEAM SYSTEMS 11. AIR HANDLING AND DISTRIBUTION 12. MAINTENANCE PROVISIONS 13. VIBRATION CONTROL 14. INTERDISCIPLINARY COORDINATION 15. FUEL STORAGE REQUIREMENTS 16. VENTILATION DESIGN 17. PATIENT ISOLATION ROOM DESIGN 18. REFERENCES
Introductory technical guidance for mechanical engineers and other professional engineers and construction managers interested in design of air conditioning systems for hospitals and medical clinics. Here is what is discussed: 1. GENERAL, 2. DESIGN CONDITIONS, 3. REFRIGERANTS, 4. LIFE-CYCLE-COST/ENERGY ANALYSIS, 5. APPROPRIATE SPACES FOR AIR CONDITIONING, 6. MECHANICAL, EQUIPMENT SPACE, 7. HVAC SYSTEM DESIGN FOR FUNCTIONAL AREAS, 8. GENERAL DESIGN CONSIDERATIONS, 9. HVAC SYSTEM CONTROLS, 10. STEAM SYSTEMS, 11. AIR HANDLING AND DISTRIBUTION, 12. MAINTENANCE PROVISIONS, 13. VIBRATION CONTROL, 14. INTERDISCIPLINARY COORDINATION, 15. FUEL STORAGE REQUIREMENTS, 16. VENTILATION DESIGN, 17. PATIENT ISOLATION ROOM DESIGN, 18. REFERENCES.
This publication provides introductory technical guidance for mechanical engineers and other professional engineers, architects and construction managers interested in design of heating, ventilation and air conditioning systems for hospitals and medical clinics. Here is what is discussed: 1. GENERAL 2. DESIGN CONDITIONS 3. REFRIGERANTS 4. LIFE-CYCLE-COST/ENERGY ANALYSIS 5. APPROPRIATE SPACES FOR AIR CONDITIONING 6. MECHANICAL EQUIPMENT SPACE 7. HVAC SYSTEM DESIGN FOR FUNCTIONAL AREAS 8. GENERAL DESIGN CONSIDERATIONS 9. HVAC SYSTEM CONTROLS 10. STEAM SYSTEMS 11. AIR HANDLING AND DISTRIBUTION 12. MAINTENANCE PROVISIONS 13. VIBRATION CONTROL 14. INTERDISCIPLINARY COORDINATION 15. FUEL STORAGE REQUIREMENTS 16. VENTILATION DESIGN 17. PATIENT ISOLATION ROOM DESIGN 18. REFERENCES.
This expanded edition of David Chadderton's Air Conditioning is a textbook for undergraduate courses in building services and environmental engineering, and for BTEC continuing education diploma, higher national diploma and certificate courses in building services engineering. It will also be of considerable help to students on national certificate and diploma programmes. The book includes a new chapter on application of fans to airduct systems.
Heating, Ventilation and Air-Conditioning (HVAC)systems are omnipresent in modern buildings. This book is an introduction for all those involved in the specification, design, manufacture, installation, operation or maintainance of these systems. Developed jointly with the ASHRAE Learning Institute, the leading and recognised technical experts in the industry. This Inch-Pound edition is primarily for use in US markets. An SI version is also available on ISBN 0123739985. The book explains: • The objectives to be achieved by a system in terms of environmental control. • The description of a system - including primary equipment, means of distribution, space and load determination, and operating strategy. • The basic function of components that form HVAC systems. • The layout and functioning of common HVAC systems, including all-air systems, air-water systems, and all-water systems. • The strategies for operating systems and their basic means of control. • Identifying the most suitable type of system for different types of application * Air-conditioning is a major industry and growing. Shows how systems operate and how to select, design and operate them efficiently to minimise installation cost and ongoing energy cost * Endorsed by, and developed with ASHRAE, the leading trade body and recognised technical experts * Provides a thorough introduction to how HVAC systems function in controlling temperature, air quality, and air circulation in a controlled space
Heating, Ventilation and Air-Conditioning (HVAC)systems are omnipresent in modern buildings. This book is an introduction to all those involved in the specification, design, manufacture, installation, operation or maintainance of these systems. The book explains: • The objectives to be achieved by a system in terms of environmental control. • The description of a system - including primary equipment, means of distribution, space and load determination, and operating strategy. • The basic function of components that form HVAC systems. • The layout and functioning of common HVAC systems, including all-air systems, air-water systems, and all-water systems. • The strategies for operating systems and their basic means of control. • Identifying the most suitable type of system for different types of application. * Air-conditioning is a major growth industry, this introduction to how systems operate and how to select, design and operate them effectively * Endorsed by, and developed with ASHRAE, the leading trade body and recognised technical experts * Provides a thorough introduction to how HVAC systems function in controlling temperature, air quality, and air circulation in a controlled space.
Introductory technical guidance for mechanical engineers and other professional engineers and construction managers interested in design of air conditioning systems for hospitals and medical clinics. Here is what is discussed: 1. GENERAL, 2. DESIGN CONDITIONS, 3. REFRIGERANTS, 4. LIFE-CYCLE-COST/ENERGY ANALYSIS, 5. APPROPRIATE SPACES FOR AIR CONDITIONING, 6. MECHANICAL, EQUIPMENT SPACE, 7. HVAC SYSTEM DESIGN FOR FUNCTIONAL AREAS, 8. GENERAL DESIGN CONSIDERATIONS, 9. HVAC SYSTEM CONTROLS, 10. STEAM SYSTEMS, 11. AIR HANDLING AND DISTRIBUTION, 12. MAINTENANCE PROVISIONS, 13. VIBRATION CONTROL, 14. INTERDISCIPLINARY COORDINATION, 15. FUEL STORAGE REQUIREMENTS, 16. VENTILATION DESIGN, 17. PATIENT ISOLATION ROOM DESIGN, 18. REFERENCES.
This book presents the most current design procedures in heating, ventilation and air conditioning (HVAC), available in handbooks, like the ASHRAE (American Society of Heating, Refrigeration and Air Conditioning Engineers) Handbook-2013 Fundamentals, in a way that is easier for students to understand. Every effort is made to explain in detail the fundamental physical principles that form the basis of the various design procedures.A novel feature of the book is the inclusion of about 15 worked examples in each chapter, carefully chosen to highlight the diverse aspects of HVAC design. The solutions for the worked examples clarify the physical principles behind the design method. In addition, there are problems at the end of each chapter for which numerical answers are provided. The book includes a series of MATLAB programs that may be used to solve realistic HVAC design problems, which in general, require extensive and repetitive calculations. remove Supplementary materials are available upon request for all instructors who adopt this book as a course text. Please send your request to [email protected].