During the planning phase, a ductwork installer uses a duct sizing calculator. It considers many factors to determine the correct size of HVAC ducts for your home, which is important for many reasons. Mismatching ducts can result in poor airflow, noise, and increased wear on your heating and cooling system. Therefore, investing in new ductwork when replacing your HVAC unit can save on energy and repair costs.
Our ductwork sizing guide provides insights into what sized ducts you might need. To help you understand the significance of duct sizing, here’s a look at the factors that go into a professional calculation:
Square Footage of Individual Rooms
When installing an HVAC system, a contractor must calculate the square footage of your entire home (or, at least, the livable space). However, an air duct must meet the needs of the individual room it serves. Building blueprints can be used to determine room size. You can also measure the area of a square or rectangular room by multiplying its length and width; for an L- or other irregularly shaped space, divide it into sections and calculate the area for each individually.
Required Air Velocity
Air velocity refers to the airflow needed to circulate heated or cooled air in your home. It’s measured in cubic feet per minute (CFM). The CFM of an air duct is directly proportional to its size; the larger the duct, the more air it can handle. An HVAC technician can start with the total square footage of your home. First, they multiply the HVAC unit’s size in tons by 400. Dividing the answer by the total square footage yields the CFM requirements for the duct system.
Total Effective Length (TEL)
The TEL of your ductwork is the length from the farthest supply outlet, through your HVAC unit, and to the farthest return outlet. It also includes the length of all turns and fittings in the duct system. The purpose of TEL is to determine how all the turns, splits, and other elements in your ductwork affect pressure loss. Not all of them need to be calculated individually. Instead, a professional measures a length of straight duct run that would create a pressure drop equal to the effective length of the fitting.
Friction Loss Rate
If you’re not a licensed HVAC technician, you may not be familiar with friction loss. It is the rate of pressure loss in a channel, such as an air duct. Friction loss is affected by a duct’s length and how many turns, dampers, grilles, registers, and vents are in the system (a 100-square-foot room usually requires one vent; larger rooms may need more). The number, size, and type of filters also affect pressure loss.
To calculate the friction loss rate, one must first determine the available static pressure. This value is divided by the total effective length of ductwork and multiplied by 100. An HVAC installation professional has the knowledge and tools to apply it using a duct sizing calculator. Generally, the calculation shows how much pressure drop the system accommodates per 100 feet of effective length.
HVAC Unit Size
It’s impossible to size ductwork without estimating the airflow of HVAC equipment. To do so, multiply the required tonnage by 400 CFM (a cooling unit’s average output). For a heating unit, consider that it needs only about 65% of the airflow an AC does. However, the reference of 400 CFM is used in a duct sizing calculator to determine the proper airflow for a heating and cooling system.
Other load calculations are used to determine the best-sized AC or heater. For example, Manual J helps determine heat loss/heat gain to determine how much-conditioned air each room needs. Sizing calculators generally consider a ratio of 1 ton to 12,000 BTUs; therefore, you’ll need a 2-ton HVAC unit if your home requires 24,000 BTUs of cooling power, which is determined by its square footage and other factors.Â
Type of Duct
The duct type and material have a big effect on performance. For example, the friction rate in a sheet metal duct is lower than in a flexible duct or rigid fiberglass duct board. Round and rectangular ducts have different airflow characteristics relative to their size. A contractor will consult a sizing chart to estimate the proper duct size or use a duct size calculator to make this step easier.
What Guideline Does an HVAC Tech Use for Duct Sizing?
A Manual D load calculation helps with ductwork design. It considers how much airflow is needed, where the air handler is located, and the distance to the ducts. The number of turns in the duct system is also considered. The duct material and how much air is needed are factored in as well. In considering these variables, Manual D helps balance the delivery of the proper airflow against friction rate and static pressures.
Why Is Duct Size So Important?
Air ducts are attached to your HVAC unit via supply and return plenums and distribute fresh air throughout your home. They also draw in air to be cooled or heated again. Ducts that are too small increase system pressure and blower fan resistance. Although they can handle more airflow, bigger ducts won’t distribute air effectively, forcing your HVAC unit to work too hard. This increases operating costs and can shorten the unit’s lifespan.
Is There an Easier Way to Calculate Duct Size?
There’s no shortcut if you’re aiming for accuracy. The simplest rule of thumb is to consider 1 ton of capacity for every 500 square feet of floor area. From here, you can estimate duct size. However, so many factors affect HVAC performance we recommend letting a professional use a duct sizing calculator. It enables them to find the exact size you need and also saves a lot of time.
Contact Sky Heating & Air Conditioning
As the leading HVAC ductwork services company in the Portland area, we know how important accurate sizing and quality installation are. Our team is familiar with everything it takes to ensure your heating and cooling system is efficient and reliable. We also provide an innovative duct-sealing solution that can minimize air leakage without extensive repairs. For more information or to schedule a service appointment, call (888) 627-1257 today.