To capitalize on today's rapidly evolving, specialized technologies, architects, designers, builders, and contractors
work together to plan the mechanical and electrical equipment that controls the indoor environment of a building.
The Building Environment: Active and Passive Control Systems, Third Edition helps you take advantage of design
innovations and construction strategies that maximize the comfort, safety, and energy efficiency of buildings.
From active HVAC systems to passive methods, lighting to on-site power generation, this updated edition explains
how to strategically plan for and incorporate effective, efficient systems in today's buildings. It covers the
underlying thermal theories and thermodynamic principles and focuses on design that enhances the building environment
and minimizes the impact on the world's environment. The Building Environment goes beyond the ABCs of HVAC and
covers:
On-site power generation, including wind turbines, solar photovoltaic cells, fuel cells, and more.
Plumbing systems, fire protection, signal systems, conveying systems, and architectural acoustics.
Procedures and/or formulas for performing heat loss, heat gain, and energy use calculations, determining the
rate of heat flow, calculating solar energy utilization, doing load calculations, and more.
Details on the latest building codes and standards references.
New information on the sustainable design of building systems and energy efficiency, including new technologies.
The latest thinking and data on a building's impact on the environment, indoor air quality, and "sick
building syndrome."
Design economics, including the payback period, life-cycle cost, comparative value analysis, and building commissioning.
A practical on-the-job tool for architects, designers, builders, engineers, contractors, and other specialists,
this Third Edition is also a great reference for architecture students who will lead tomorrow's design teams.
Table of Contents
PART 1: THERMAL CONTROL CONCEPTS.
Chapter 1. Human Comfort and Health Conditions.
Chapter 2. Thermodynamic Principles.
Chapter 3. Thermal Dynamics of Buildings.
Chapter 4. Load Calculations.
PART 2: THERMAL CONTROL SYSTEMS.
Chapter 5. A Building's Thermal Impact On The Environment.
Chapter 6. Active HVAC Systems.
Chapter 7. Passive Methods.
PART 3: ELECTRICAL SYSTEMS.
Chapter 8. Lighting.
Chapter 9. Normal Electrical Services.
Chapter 10. On-Site Power Generation.
Chapter 11. Special Systems.
PART 4: OTHER PIPED SYSTEMS.
Chapter 12. Plumbing.
Chapter 13. Fire Protection.ART 5: RELATED SUPPORT SERVICES.
Chapter 14. Architectural Acoustics.
Chapter 15. Building Commissioning.
Chapter 16. Design Economics.
Appendices.
Index