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Reprinted & modified with permission from ICF Builder Magazine: April/May 2008

Five Steps to a Successful Zero Energy House (ZEH)

Designers who work with zero energy homes say "system engineering" is the key to making it happen. The term refers to designing all the components of the unit to work together smoothly. We know and expect this of our cars; the engine, the transmission, the brakes, the chassis are all matched to work as a system. To maximize efficiency, the same concept is applied to a home. The building shell, the windows, the HVAC, the hot water, the electrical are designed and constructed to optimize performance AND comfort.

Here's a look at the components:

  1. Design and Orientation: Roof overhangs, window size and placement, and overall home shape have a major impact. Consider the direction of prevailing winds and how to manage solar gain. If you will be using solar collectors, ensure that a portion of the roof faces true south. The placement of porches, garages, trees, and nearby buildings also have an effect. Passive Solar Building Design helps optimize your home.
     
  2. Insulate and Seal the Building Envelope: Most of a home's energy is spent heating and cooling the interior. Minimizing heating and cooling requirements is the most important step in building a ZEH.
     
    1. High R-Value Insulation: For a zero energy home, use high R-value insulation that provides a continuous, unbroken layer around the building envelope. Remember to insulate under the slab as well. Use a high-insulation, tightly-sealed roof system, such as Quad-Deck, Airboard, or spray foam. Seal all holes, cracks, and penetrations through the floor, walls, and ceiling to unconditioned spaces.
       
    2. Concrete Thermal Mass: Build exterior walls, floors & roofs with concrete. Concrete will moderate temperature swings, and can even dampen seasonal fluctuations by "spreading" the constant ground temperature from the footings throughout the home.
       
    3. Airtight Construction: ICFs will ensure airtight walls. Ensure that all windows and doors are tight and exceed the required air-leakage standards. The roof and/or ceiling needs special attention, as do the kitchen and bathrooms, to make sure they have adequate ventilation but still maintain energy efficiency.
       
    4. Windows and Doors: Use triple glazed windows and well insulated or double external doors. The passive gain of incoming solar heat through the windows will cover close to 40% of the heat losses, if all guidelines are followed. Skylights can decrease artificial lighting requirements, but use a high-quality, double glazed product.
       
  3. Increase Heating and Cooling Efficiency: The heating and cooling systems need to be carefully matched to the high-efficiency building envelope. Standard-sized equipment will "short-cycle," turning on and off so frequently that it will negate any energy savings. Buying properly sized equipment will ensure maximum efficiency. Another benefit: smaller equipment will cost less.
     
    1. Buy as high-efficiency equipment as affordable.
       
    2. Take Advantage of Earth Temperature: Install a geothermal pump or a ground-air heat exchanger where space and cost conditions permit.
       
    3. Radiant Floor Heating: Radiant floor heating (e.g. with Quad-Deck) provides warmth in a pattern that mimics the body, improving comfort. It heats evenly without drafts and uses far less energy than conventional systems. It also reduces noise and allows room by room zoning.
       
    4. Optimize Ducting: Design the supply and return ducts appropriately and seal tightly using approved tapes or mastic. Run ducting in conditioned space only.
       
    5. Alternate Heating & Cooling Methods: Where appropriate, consider alternative systems such as mechanical ventilation only, Heat Recovery Ventilators (HRV), Energy Recovery Ventilators (ERV) and/or evaporative coolers.
       
  4. Decrease Other Energy Requirements: Decrease energy needs as much as possible throughout the home.
     
    1. Install efficient lighting: Use LED lighting wherever possible.
       
    2. Install efficient appliances: Use the most energy efficient models available. Focus especially on the refrigerator, dishwasher, and laundry appliances, as they use the most energy. Look at the Energy Star labels to help make decisions.
       
    3. Tankless Water Heaters: Use tankless water heaters, especially if the home will not be constantly occupied. Low-flow fixtures for showers and faucets will also decrease hot water demands.
       
    4. Turn off lights, computers, and appliances when not in use: The homeowner has the most significant impact on the actual performance of the ZEH. Programmable thermostats and photo-sensitive outdoor light fixtures will do some of this automatically. Simple things such as turning off lights when leaving a room or closing doors when performing even quick tasks outdoors can eliminate "wasted" energy.
       
  5. Install Energy Generation Equipment such as solar panels

Remember the concept of "system engineering." Often, low-efficiency components can be compensated for in other areas. For instance a house with many doors may require significant improvement in other components, while a well designed, moderately-sized house may find standard doors sufficient.

 

Reprinted & modified with permission from ICF Builder Magazine: April/May 2008

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