Heating Ventilating And Air Conditioning Analysis And Design.php Book PDF, EPUB Download & Read Online Free

Heating, ventilating, and air conditioning
Author: Faye C. McQuiston, Jerald D. Parker, Jeffrey D. Spitler
Publisher: Wiley
ISBN: 0471470155
Pages: 623
Year: 2005
View: 1309
Read: 957
Completely revised with the latest HVAC design practices! Based on the most recent standards from ASHRAE, this Sixth Edition provides complete and up-to-date coverage of all aspects of heating, ventilation, and air conditioning. You'll find the latest load calculation procedures, indoor air quality procedures, and issues related to ozone depletion. Throughout the text, numerous worked examples clearly show you how to apply the concepts in realistic scenarios. In addition, several computer programs (several new to this edition) help you understand key concepts and allow you to simulate various scenarios, such as psychometrics and air quality, load calculations, piping system design, duct system design, and cooling coil simulation. Additionally, the load calculation program has been revised and updated. These computer programs are available at the book's website: wiley.com/college/mcquiston Key Features of the Sixth EditionAdditional new worked examples in the text and on the accompanying software.Chapters 6-9 have been extensively revised for clarity and ease of use.Chapter 8, The Cooling Load, now includes two approaches: the heat balance method, as recommended by ASHRAE, and the simpler RTS method. Both approaches include computer applications to aid in calculations.Provides complete, authoritative treatment of all aspects of HVAC, based on current ASHRAE standards.Numerous worked examples and homework problems provide realistic scenarios to apply concepts.
Author: Mcquiston, Parker, Spitler
ISBN: 8126531878
Pages: 644
Year: 2011-08-01
View: 319
Read: 153
Market_Desc: Anyone seeking a primer on HVAC; Students of Mechanical Engineering Special Features: " The revision of this text continues to offer comprehensive treatment of Heating, Ventilation and Air Conditioning concepts." All material is based on the updated ASHRAE Handbook and Product criteria and uses both SI and English units." Practical realistic problems are presented and the latest procedures and issues are covered." Suitable for advanced study in HVAC Mechanical Engineering, Architectural Engineering, and Mechanical Engineering Technology departments. About The Book: Based on the most recent standards from ASHRAE, the sixth edition provides complete and up-to-date coverage of all aspects of heating, ventilation, and air conditioning. You'll find the latest load calculation procedures, indoor air quality procedures, and issues related to ozone depletion. Also integrated throughout the text are numerous worked examples that clearly show you how to apply the concepts in realistic scenarios.
Heating and Cooling of Buildings
Author: Jan F. Kreider, Peter S. Curtiss, Ari Rabl
Publisher: CRC Press
ISBN: 1439882509
Pages: 863
Year: 2009-12-28
View: 1091
Read: 1131
The art and the science of building systems design evolve continuously as designers, practitioners, and researchers all endeavor to improve the performance of buildings and the comfort and productivity of their occupants. Retaining coverage from the original second edition while updating the information in electronic form, Heating and Cooling of Buildings: Design for Efficiency, Revised Second Edition presents the technical basis for designing the lighting and mechanical systems of buildings. Along with numerous homework problems, the revised second edition offers a full chapter on economic analysis and optimization, new heating and cooling load procedures and databases, and simplified procedures for ground coupled heat transfer calculations. The accompanying CD-ROM contains an updated version of the Heating and Cooling of Buildings (HCB) software program as well as electronic appendices that include over 1,000 tables in HTML format that can be searched by major categories, a table list, or an index of topics. Ancillary information is available on the book’s website www.hcbcentral.com From materials to computers, this edition explores the latest technologies exerting a profound effect on the design and operation of buildings. Emphasizing design optimization and critical thinking, the book continues to be the ultimate resource for understanding energy use in buildings.
Universal Design
Author: Gail Staines
Publisher: Elsevier
ISBN: 1780633076
Pages: 176
Year: 2012-07-05
View: 963
Read: 1324
Universal Design provides practitioners, graduate students, and other professionals interested in obtaining practical advice on how to effectively create and re-create interiors of academic libraries for teaching, learning, and research. The academic library ‘as place’ continues to evolve around the idea that the existing environment can have multiple uses. Partnerships with other college and university agencies, such as centers for teaching excellence and writing centers have compatible missions with those of academic libraries. Established within the building-proper these facilities will better serve students and faculty. The book fills the need for current information about how to effectively design and re-design academic library spaces to meet the ever-changing needs for today’s and tomorrow’s students, faculty, and researchers. Provides practical advice that can be applied immediately Includes brief and to-the-point explanations and information for the time-crunched reader Easy-to-locate references are provided if the reader seeks additional information
Heating, Cooling, Lighting
Author: Norbert Lechner
Publisher: John Wiley & Sons
Pages: 620
Year: 2001
View: 1189
Read: 623
* Qualitative graphic approach to understanding the techniques of heating, cooling, and lighting reflects the decision-making approach of architects and students. * Useful appendices provide sun path diagrams and solar site evaluation tools. Appendices new to this edition include practical checklists of strategies and issues in evaluating energy use in the building design stage, and an annotated list of helpful sustainability videos to use in class, professional meetings, or with clients. * A new chapter on photovoltaics discusses their use as an ideal energy source, offers design options, and case studies as well as their future role in building design. * A new chapter on sustainable "green" design includes case studies and examples of water conservation measures, effects from energy production and consumption, and an analysis of indoor air quality. * Mathematical formulas are excerpted from the text and appear in side boxes, so they don't cloud the text with overly-technical information.
Ashrae Handbook of Heating, Ventilating and Air Conditioner Applications, Mark S. Owen, 2015
Author: ASHRAE Publication
Publisher: Bukupedia
Pages: 1340
Year: 2015-07-15
View: 1043
Read: 668
ASHRAE Research: Improving the Quality of Life ASHRAE is the world’s foremost technical society in the fields of heating, ventilation, air conditioning, and refrigeration. Its members worldwide are individuals who share ideas, identify needs, support research, and write the industry’s standards for testing and practice. The result is that engineers are better able to keep indoor environments safe and productive while protecting and preserving the outdoors for generations to come. One of the ways that ASHRAE supports its members’ and industry’s need for information is through ASHRAE Research. Thousands of individuals and companies support ASHRAE Research annually, enabling ASHRAE to report new data about material properties and building physics and to promote the application of innovative technologies. Chapters in the ASHRAE Handbook are updated through the experience of members of ASHRAE Technical Committees and through results of ASHRAE Research reported at ASHRAE conferences and published in ASHRAE special publications, ASHRAE Transactions, and ASHRAE’s journal of archival research, Science and Technology for the Built Environment. For information about ASHRAE Research or to become a member, contact ASHRAE, 1791 Tullie Circle, Atlanta, GA 30329; telephone: 404-636-8400; www.ashrae.org. Preface The 2015 ASHRAE Handbook—HVAC Applications comprises more than 60 chapters covering a broad range of facilities and topics, written to help engineers design and use equipment and systems described in other Handbook volumes. Main sections cover comfort, industrial, energy-related, general applications, and building operations and management. ASHRAE Technical Committees in each subject area have reviewed all chapters and revised them as needed for current technology and design practice. An accompanying CD-ROM contains all the volume’s chapters in both I-P and SI units. This edition includes two new chapters: • Chapter 61, Smart Building Systems, covers smart systems and technologies for automated fault detection and diagnostics, sensors, and actuators, and the emerging modernized electric power grid and its relationship to buildings and facilities. • Chapter 62, Moisture Management in Buildings, addresses avoiding or reducing risks associated with damp buildings, with suggestions for architectural and HVAC system design, operation, and occupancy. Other selected highlights include the following: • Chapter 1, Residences, has updated guidance on duct system design and communicating control systems. • Chapter 4, Tall Buildings, has new content on supertall and megatall buildings; improved stack effect discussion and calculations; and new information on chilled beams, code references, split central plants, and elevator shaft pressurization. • Chapter 7, Educational Facilities, provides new design criteria updated for current standards, a new section on energy measurement and verification, and a newly compiled list of case studies from ASHRAE Journal. • Chapter 8, Health Care Facilities, has been extensively revised to ANSI/ASHRAE/ASHE Standard 170-2013, with new content on regulatory resources, hospital-acquired infections, sustainability, and operations, and expanded text on control measures, outpatient care, isolation and bronchoscopy rooms, plus research results from RP-1343 on heat gain from imaging systems. • Chapter 16, Laboratories, includes updates on applying usage factors, pressurization control, and energy efficiency measures. • Chapter 18, Clean Spaces, has extensive new content on demand control, computational fluid dynamics analysis, pharmaceutical manufacturing facilities, safety, environmental systems, installation and testing, and sustainability and energy conservation. • Chapter 19, Data Centers and Telecommunication Facilities, has been completely rewritten for current best practices as in the ASHRAE Datacom Series. • Chapter 33, Kitchen Ventilation, was updated for the latest revisions to relevant standards, with new sections added on commissioning and the design process (for the first-time designer), and the chapter content restructured to reflect the sequence of the design process. • Chapter 34, Geothermal Energy, has significant new content and examples on ground-coupled heat pump systems design, hybrid ground-source heat pumps, piping, pressure considerations, purging, deep boreholes, central plants, open-loop/surface-water direct cooling, and simulation. • Chapter 35, Solar Energy Use, has revised examples and figures, plus new content on solar-combi systems; design, control, and operation of solar cooling; and grid-connected photovoltaic systems. • Chapter 49, Water Treatment, has major revisions on corrosion, deposition, microbiological growth and control, filtration and closed-loop systems, alternative water sources, Legionnaires’ disease, thermal storage, and steam boiler systems. • Chapter 50, Service Water Heating, describes new technologies for hot-water generation and distribution and reducing consumption at end-use fixtures. • Chapter 53, Fire and Smoke Control, has been revised to align with ASHRAE’s Handbook of Smoke Control Engineering, with many new figures and examples. This volume is published, as a bound print volume and in electronic format on CD-ROM and online, in two editions: one using inch-pound (I-P) units of measurement, the other using the International System of Units (SI). Corrections to the 2012, 2013, and 2014 Handbook volumes can be found on the ASHRAE web site at http://www.ashrae.org and in the Additions and Corrections section of this volume. Corrections for this volume will be listed in subsequent volumes and on the ASHRAE web site. Reader comments are enthusiastically invited. To suggest improvements for a chapter, please comment using the form on the ASHRAE web site or, using the cutout page(s) at the end of this volume’s index, write to Handbook Editor, ASHRAE, 1791 Tullie Circle, Atlanta, GA 30329, or fax 678-539-2187, or e-mail [email protected] Mark S. Owen Editor
Thermal Energy Systems
Author: Steven G. Penoncello
Publisher: CRC Press
ISBN: 1482246007
Pages: 576
Year: 2015-01-20
View: 1003
Read: 927
Model a Thermal System without Lengthy Hand Calculations Before components are purchased and a thermal energy system is built, the effective engineer must first solve the equations representing the mathematical model of the system. Having a working mathematical model based on physics and equipment performance information is crucial to finding a system’s operating point. Thermal Energy Systems: Design and Analysis offers a fundamental working knowledge of the analysis and design of thermal-fluid energy systems, enabling users to effectively formulate, optimize, and test their own design projects. Providing an understanding of the basic concepts of simulation and optimization, and introducing simulation and optimization techniques that can be applied to a system model, this text covers the basic foundations of thermal-fluid system analysis and design. It addresses hydraulic systems, energy systems, system simulation, and system optimization. In addition, it incorporates both SI and English units, and builds current state-of-the-art computer modeling skills throughout the book. Topics covered include: Review of thermal engineering concepts Engineering economics principles Application of conservation and balance laws Review of fluid flow fundamentals Minor losses Series and parallel pipe networks Economic pipe diameter Pump performance and selection Cavitation Series and parallel pump systems The affinity laws for pumps Heat exchangers, LMTD, and e-NTU methods Regenerative HX, condensers, evaporators, and boilers Double-pipe heat exchangers Shell and tube heat exchangers Plate and frame heat exchangers Cross-flow heat exchangers Thermal energy system simulation Fitting component performance data Optimization using Lagrange multipliers Optimization using software Thermal Energy Systems: Design and Analysis covers the concepts and the skills needed to plan, model, create, test, and optimize thermal systems; and to use computer simulation software through its use of Engineering Equation Solver (EES).
Total Heat Recovery
Author: Li-Zhi Zhang
ISBN: 1606923595
Pages: 316
Year: 2008
View: 1139
Read: 1270
Energy has been described as "that which makes things go". Air conditioning accounts for 1/3 of the total energy use in society. Further, ventilation air accounts for 20-40% of the cooling load for HVAC (Heating, ventilating, and Air conditioning) industry. The ratio can be even higher in hot and humid regions where latent load from fresh air is as heavy as 50% of the cooling load. In this book, the systems and performances used for total heat recovery are introduced. They can be classified into two categories: energy wheels and stationary total heat exchangers. Energy wheels and membrane based total heat exchangers are specially described. Heat and mass transfer modelling of the system are performed. Influences of key material and design parameters on the system performance are discussed. Novel membranes including hydrophobic-hydrophilic composite membrane and composite supported liquid membrane are developed for total heat exchangers and are characterised. Sorption and diffusion of moisture in hygroscopic materials are the key parameters influencing latent heat recovery capability. Their appraisal methods are provided and implemented. Besides materials side intensification, air side intensification measures are taken as well. Plate-fin and cross corrugated triangular ducts are two important structures that are introduced. Plate-fin is compact and mechanically strong. Cross-corrugated triangular ducts are a new type of primary surface heat mass exchanger. The basic transport data in these structures are provided. Convective heat and mass transfer coefficients in plate-fin ducts of finite fin conductance with various cross sections are numerical obtained. Fluid flow and heat transfer in cross-corrugated triangular ducts are estimated by considering laminar, transitional, and turbulent complex flow regimes. Based on the fundamental heat mass transfer data, the book illustrates some examples of the applications of total heat recovery in novel HVAC systems. Chilled-ceiling combined with desiccant cooling and independent air dehumidification are two pioneering trends in air conditioning industry. They overcome the shortcomings of conventional all air systems by decoupling the treatment of sensible load with latent load. Partial or full total heat recovery are realised in combination with these novel systems, which contribute to reduced energy use with increased indoor humidity control, even in transit seasons when traditional air conditioning systems fail to control humidity. The component modelling of various key equipments like refrigeration cycle, heat pumps, regenerative wheels, heat exchangers, cooling coils, are conducted to estimate their energy performance and their effects on indoor thermal and humidity performance. The book combines theoretical analysis with engineering practices. It covers a wide range of knowledge from fundamental heat mass transfer data to novel systems design and performance analysis, from materials synthesis, characterisation to thermodynamics and fluid dynamics. As a kernel part, numerical heat mass transfer provides the tool for component modelling. The book provides crucial insight and design guidelines for the total heat recovery focused air conditioning industry.
Delmar Online Training Simulation: HVAC Printed Access Code Card
Author: Cengage Delmar Learning, Cengage Delmar Learning Staff, Interplay Energy Staff
Publisher: Delmar Pub
ISBN: 1133594387
Year: 2012-07-17
View: 941
Read: 589
Delmar Online Training Simulation: HVAC, is a 3-D, immersive simulation that offers a rich learning experience that mimics field performance. It challenges learners to master diagnostic and troubleshooting skills across six pieces of HVAC equipment found in industry- Gas Furnace, Oil Furnace, Gas Boiler, Small Commercial Air Conditioner, Central Air Conditioners and Heat Pump. Soft skills are also included within the Simulation. To create successful learning outcomes, the Delmar Online Training Simulation: HVAC offers more than 150 scenarios which allow students to troubleshoot and build diagnostic and critical thinking skills. Two modes within the Simulation promote incremental learning: Training Mode has fixed scenarios to aid in initial familiarization with the equipment, the problem needing attention and the capabilities of the Simulation Challenge Mode is randomized with 3 levels: Beginner, Intermediate, and Advanced. Both modes require learners to diagnose a fault or faults and perform the repair successfully while materials and labor costs are tracked. Online access is for two years upon activation. The instructional design allows for full open engagement, so students do not have artificial guard-rails leading them to a conclusion. Combining sound instructional design with top-quality computer immersive technology, learners develop critical thinking skills and apply them to real-world customer service calls in a simulated, 3-D, life-like setting. This performance simulation complements live training practice by re-enforcing good habits, and even presenting scenarios that are impractical (dangerous, expensive, etc) to create in labs or in a residence.
Finite Element Simulations with ANSYS Workbench 18
Author: Huei-Huang Lee
Publisher: SDC Publications
ISBN: 1630571733
Pages: 612
View: 1096
Read: 1132
Finite Element Simulations with ANSYS Workbench 18 is a comprehensive and easy to understand workbook. Printed in full color, it utilizes rich graphics and step-by-step instructions to guide you through learning how to perform finite element simulations using ANSYS Workbench. Twenty seven real world case studies are used throughout the book. Many of these case studies are industrial or research projects that you build from scratch. Prebuilt project files are available for download should you run into any problems. Companion videos, that demonstrate exactly how to perform each tutorial, are also available. Relevant background knowledge is reviewed whenever necessary. To be efficient, the review is conceptual rather than mathematical. Key concepts are inserted whenever appropriate and summarized at the end of each chapter. Additional exercises or extension research problems are provided as homework at the end of each chapter. A learning approach emphasizing hands-on experiences is utilized though this entire book. A typical chapter consists of six sections. The first two provide two step-by-step examples. The third section tries to complement the exercises by providing a more systematic view of the chapter subject. The following two sections provide more exercises. The final section provides review problems.
Heating, Ventilating, and Air Conditioning
Author: Faye C. McQuiston, Jerald D. Parker
Publisher: John Wiley & Sons
ISBN: 0471612243
Pages: 200
Year: 1988-04-01
View: 227
Read: 1203

Handbook of Air Conditioning and Refrigeration
Author: Shan Wang
Publisher: McGraw-Hill Education
ISBN: 0070681678
Pages: 1232
Year: 2000-11-07
View: 189
Read: 203
* A broad range of disciplines--energy conservation and air quality issues, construction and design, and the manufacture of temperature-sensitive products and materials--is covered in this comprehensive handbook * Provide essential, up-to-date HVAC data, codes, standards, and guidelines, all conveniently located in one volume * A definitive reference source on the design, selection and operation of A/C and refrigeration systems
Urban Climate Design. Improving Thermal Comfort in Dutch Neighbourhoods
Author: Laura Kleerekoper
Publisher: Tu Delft
ISBN: 9461866828
Pages: 382
Year: 2016-06-02
View: 1048
Read: 1044
This book presents research into the possibilities for climate adaptation in Dutch urban areas. How can cities prepare best for extreme rainfall, droughts, and heat waves in future climates? These events are likely to become more frequent and more extreme. The focus is on heat resistance as this has been a neglected concept in Dutch urban planning. The aim of this study is to extend our knowledge of the effects of climate-adaptation measures and to stimulate the implementation of such measures in the design of public space. Anticipating on the effects of climate change, the research was guided by the question: Which urban design principles can be applied in specific Dutch neighbourhoods to respond to the effects of climate change, especially in terms of outdoor thermal comfort and water management?
Shigley's Mechanical Engineering Design
Author: Richard G. Budynas, Richard Gordon Budynas, J. Keith Nisbett
Publisher: Asia Higher Education Engineering/Computer Science Mechanical Engineering
ISBN: 9814595284
Pages: 1082
Year: 2014-08-26
View: 729
Read: 447
Intended for students beginning the study of mechanical engineering design, this book helps students find that the text inherently directs them into familiarity with both the basics of design decisions and the standards of industrial components.
Laboratory Design Handbook
Author: E. Crawley Cooper
Publisher: CRC Press
ISBN: 1498710689
Pages: 256
Year: 2014-07-22
View: 639
Read: 714
Laboratory Design Handbook describes the process, motivation, constraints, challenges, opportunities, and specific design data related to the creation of a modern research laboratory. The information presented is based on a large pool of experience in the development of new and renovated laboratory buildings for universities, teaching hospitals, pharmaceutical companies, start-up biotechnology companies, and other types of industrial technology.