Ductwork System

 

The goal of an effective ductwork system is to provide constant temperature and humidity control throughout the house without noticeable air stratification or noise. The best way to accomplish this is with a simple, direct duct design, which ensures both good performance and low cost.

 

Types of ductwork systems

 

Three types of ductwork systems are common in the U.S.:

 

 

Flexible duct systems consist of insulated flexible duct connected with metal transitions and joint connections. This system is used for attic installations where flexible duct can be suspended over the joist and whenever crawl-space installations are possible. This design works best with centrally located air conditioning systems.

 

Sizing

 

A properly sized and installed air distribution system is as important as properly sized and installed heating, ventilation and air conditioning (HVAC) equipment.

 

When designing an air distribution system, you should consider:

 

 

Design and insulation

 

A ductwork system that is not properly designed, installed, insulated and sealed can increase total heating and cooling costs up to 40% and may decrease the comfort, health and safety of your home.

 

Different rooms need different volumes of air to maintain even temperatures throughout your home. Duct sizes that are not properly matched with room sizes cause hot and cold spots in a house. Long duct runs - the length the duct travels from the air handler (typically located in the attic) to the room - can raise the temperature of cooled air and lower the temperature of heated air before it reaches the room. This same temperature loss occurs when ducts run through unconditioned spaces, such as attics.

 

Placement of ducts can’t always be controlled in the design of most houses; however, any ill effects can be minimized with good duct insulation. Ducts are typically located in the attic. If they’re poorly insulated, the oven-like temperatures during the summer tend to transfer into the ducts, which heats up the cool air from the air conditioner before it gets into the living space. In winter, the opposite occurs. The warm air from the furnace loses heat to the surrounding cooler air in the attic, which makes the equipment work harder. Energy costs increase and the comfort level of your home decreases.

 

Recommended duct design

 

Good duct design includes thermal efficiency achieved with adequate insulation and airtight seals. We recommend ducts insulated to an R-Value of R-6. Ductwork should be kept as straight as possible. Any turns, bends or 'S' loops will cause additional pressure loss and reduced airflow.

 

Duct insulation should have a vapor barrier on the outer surface to prevent moisture in ambient air from passing through the insulation and condensing on the duct surfaces. Condensation will cause the insulation to be saturated with water, destroying its insulating ability and deteriorating the duct material.

 

Properly sealing an air distribution system

 

 

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