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By . ASHRAE Press
Description With a focus on how to apply proven Green Building Technology to the design and energy use of a building, the ASHRAE GreenGuide provides
mechanical engineers, architects, and construction engineers hand's-on, needed tips on everything from site location to the latest in
energy-saving HVAC Systems. This new edition will carry that invaluable practical help forward with the latest on LEED (Leadership on
Energy and Environmental Design) guidance as promulgated by the U.S. Green Buildings Council and will offer the latest in sustainable
materials and systems specifications. Moreover, the new edition will be better organized around the actual construction project sequence
from important Green decisions that must be made at the pre-design and programmatic phases on through the actual construction documents
and specifications and eventual Post-occupancy. It will also be greatly enhanced with new Green Tips, including an expanded version of
the Green Tip that focuses on specific building types. Dual units have been provided as well as more international HVAC engineering representation
in the content authorship. No other guide of this kind offers the authority and accuracy on green HVAC and building technologies like
this book.
Audience
Mechanical, Electrical, Environmental, and Construction Engineers
Architects, General Contractors, HVAC Contractors
Manufacturers and suppliers of HVAC equipment and systems
Contents FOREWORD
PREFACE
Background on the ASHRAE GreenGuide?s Continued Development
What the ASHRAE GreenGuide Is and Is Not
Who Should Use
the ASHRAE GreenGuide
How to Use This ASHRAE GreenGuide
ACKNOWLEDGMENTS
SECTION I: BASICS
Chapter 1?Green/ Sustainable ?High Performance?
Design
Introduction
Relationship to Sustainability
Commitment to High Performance Projects
What Drives Green Projects
Ingredients
of a Successful Green Project Endeavor
Establishing Green Design Goals Early
Integration of Team Ideas
Effective Execution
The Engineering/Energy
Conservation Ethic
Incentives
Building Team Spirit
International Perspective
Chapter 2?Background and Fundamentals
Sustainability
in Architecture
Laws of Thermodynamics
Key Relationships/Dependencies
Summary
References
SECTION 2: THE DESIGN PROCESS
Chapter
3?Commissioning Process
CA?s Role and Owner?s Project Requirement
Commissioning Phases
Selection of a Commissioning Provider
Selection
of Systems to Commission
Commissioning Models
Commissioning Checklist
Chapter 4?Architectural Design Impacts
Site Location
Site
Orientation
Building Form/Geometry
Building Envelope
Arrangement/Grouping of Spaces
Climatic Impacts
Chapter 5?The Design Process?Early
Stages
Overview
The Owner?s Role
The Design Team
The Engineer?s Role
Project Delivery Methods and Contractor Selection(Formally
a separate chapter)
Successful Approaches
Concept Development
Expressing and Testing Concepts
Chapter 6?LEED Guidance for HVAC Engineers
LEED and the HVAC Engineers Role
LEED points that are directly related to ASHRAE Standards
LEED points that are indirectly related
to ASHRAE Standards
LEED Certification Process
Chapter 7?Conceptual Engineering Design?Load Determinations
Energy Impacts of Architectural
Features
Thermal/Mass Transfer of Envelope
Engineering Load-Determining Factors
System/Equipment Efficiencies
Lighting
Chapter 8?Space
Thermal/Comfort Delivery System Energy Exchange
Energy Delivery Methods
Occupied-Space Energy Delivery Means (Air Terminals/Conductive/Convective/Radiant
Devices)Provision of Outside Air Ventilation
Chapter 9?Impact on the Local Environment
Purpose of this Chapter
Indoor Environmental
Quality (IEQ)
Cooling Tower Operation
District Energy Systems
Water Consumption
Acoustics
Heat Sinks for Cooling
Cool Roof Technology
Chapter 10?Energy Distribution Systems
Steam
Hydronics
Air
Electric
Chapter 11?Energy Conservation Systems
Heat Generators (Heating
Plants)
Cooling Generators (Chilled Water Plants)Distributed Power Generators and Combined Cooling, Heating & Power
Summary
Chapter
12?Energy Sources
Renewable/Nonrenewable Energy Sources
Solar
Wind
Water
Chapter 13?Lighting Systems
Electric Lighting
Daylighting
The Light Conveyor
Lighting Controls
Cost Considerations
Sources of Further Information
Chapter 14?Plumbing and Fire Protection
SystemsWater Supply
Domestic Water Heating
Sanitary Waste
Storm Drainage
Chapter 15?Building Automation Systems
Individual (Occupant)
Systems and Equipment
Distributed and Central Monitoring/Control
Chapter 16?Completing Design and Documentation for Construction
Drawings/Documents Stage
Specifying Materials/Equipment
Costing
SECTION 3: POST-DESIGN?CONSTRUCTION TO DEMOLITION
Chapter 17?Construction
Construction Practices and Methods
The Engineer?s Role in Construction Quality
Chapter 18?Operation/Maintenance/Performance Evaluation
Commissioning for Building Occupancy
Disposal/Recycling
Continuous Commissioning
Occupant Surveys
Bibliography
TERMS, DEFINITIONS,
AND ACRONYMS
INDEX
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