HVAC Design Help

September 11, 2006
September/October 2006
A version of this article appears in the September/October 2006 issue of Home Energy Magazine.
Click here to read more articles about Trends
        Though tools and methods are available for the design of energy-efficient HVAC systems, they are not often used when it comes to production homes. That’s partly because builders of production homes are unaware that these tools exist. Even for those aware of these tools, the existing design methodologies are often hard to find, as they are buried inside various code documents that also include large amounts of unrelated information.
        The California Residential New Construction HVAC Design Guide, produced by the consulting firm ConSol, addresses these problems by consolidating the relevant information for the HVAC design process into an easy-to-use reference and training tool. It presents a start-to-finish breakdown of the HVAC design process and discusses how each step can help lead to an energy-efficient system. It also highlights how some elements of HVAC system design fit into the overall construction process, and it discusses specific measures that can be used to reduce HVAC energy use in production homes. In addition, it identifies which personnel need to be involved with the different components of the HVAC design to ensure that it is energy efficient.
        The guide is written for HVAC designers, architects, and builders and is particularly suited for production homes in California and areas with similar climates. The HVAC systems discussed in the guide are split or single-packaged air conditioners or heat pumps with a cooling capacity of 5 tons or less that are used in residential applications. 

Features and Benefits

        The design guide breaks down the HVAC design process into seven highlevel steps to guide the development of an energy-efficient system:
        • Determine zones.
        • Calculate room-by-room loads.
        • Select and size equipment.
        • Lay out duct system.
        • Determine operating conditions.
        • Size ducts.
        • Apply final touches.
        The guide also includes specific recommendations for special design topics:
        • Create a list of all building orientations for a production home development (to the nearest 45º) using a site map or a plot map of the development.Then calculate loads for only these orientations and assess the potential to downsize equipment and duct sizes for certain plots from the worst-case orientation, which requires the largest-capacity equipment and ducts.
        • Calculate room-by-room loads, in addition to loads for the whole house, for each house plan. From this, you can accurately determine how to distribute air flow.
        • Use inline manual dampers in ducts to allow for different balancing needs, caused by different building orientations. • Place supply registers on a high wall facing a window or exterior wall. This location produces the best air mixing without short-circuiting the supply air into the return airstream and without directly heating or cooling the window (see Figure 1).
        • In two-story houses, install air returns on both floors to reduce system cycling.
        • Place furnaces in the attic instead of the garage. This typically allows for shorter ducts, which results in less conductive heat loss and gain and less resistance to airflow.
        The guide also provides a table that lists HVAC, building design, and construction personnel and describes how they are affected by HVAC system design components.This makes it easy to identify the key personnel who need to be involved with design decisions. In addition, the guide provides a checklist of HVAC-related items to be discussed with stakeholders early in the design process. Example items for discussion include where to locate the condenser, the refrigerant lines, the ducts, and the thermostat.

California Codes and Standards

        The guide highlights California building codes that are relevant to air conditioning design. For instance, the 2001 California Mechanical Code requires that all residential duct systems be sized according to the Air Conditioning Contractors Association of America (ACCA) Manual D, which requires ACCA Manual J.An update is scheduled for this code at the end of 2006, which may alter the Manual D requirement so that it applies only to homes needing outdoor air. Also, the 2001 Residential Manual of Title 24 dictated how heat loss and gain calculations are to be performed and established the temperatures to be used for sizing equipment.The 2005 Residential Manual, effective October 1, 2005, changed the design temperatures to be used and also offers an alternate sizing method. ConSol will update the guide as these codes or other changes dictate.

What’s Next

        ConSol will use the design guide to train builders, planners, and others involved with production homes. Although the California Mechanical Code requires the use of ACCA Manual D, many jurisdictions are unaware of this requirement, and it is often not enforced. By educating production home builders and others, this guide should help to ensure compliance with the code.
  • 1
  • NEXT
  • LAST
Click here to view this article on a single page.
© Home Energy Magazine 2022, all rights reserved. For permission to reprint, please send an e-mail to contact@homeenergy.org.
Discuss this article in the HVAC group on Home Energy Pros!

Add a new article comment!

Enter your comments in the box below:

(Please note that all comments are subject to review prior to posting.)


While we will do our best to monitor all comments and blog posts for accuracy and relevancy, Home Energy is not responsible for content posted by our readers or third parties. Home Energy reserves the right to edit or remove comments or blog posts that do not meet our community guidelines.

Related Articles
SPONSORED CONTENT What is Home Performance? Learn about the largest association dedicated to home performance and weatherization contractors. Learn more! Watch Video