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HVAC return air improvement guide:

How to increase HVAC system return air to increase heating or cool air output by improving the flow of return air to the air handler. This article describes problems with return air inlet size, location, and ductwork.

Inadequate return air seriously limits both air flow rates and also the degree to which building air is cooled (or heated) by the HVAC system. The photograph above shows a return air inlet grille for a commercial office space after the air conditioning return register and ducts were increased in size as part of improvements in the building cooling system.

How to Increase Return Air Flow or Supply in Heating or Air Conditioning Duct Systems

How to increase air conditioning or heating return air flow to improve system performance Return air adequacy on heating and air conditioning duct systems. How to Check or Detect Air Flow at the Return Register Inlets.

Here you will find a list of "Improvements" to "fix" inadequate return air ducts & airflow for air conditioners and furnaces addressing the blower and supply duct system.

Add More Return Air Inlets & Ducting

Adding additional return air inlets and ducts to increase airflow to the air handler is an effective way to improve air conditioning or or warm air heating system performance, provided that the system is in fact running "air starved".

There are several easy and amateur ways to check for an air conditioning or warm air heating system that is not getting enough return air.

1. Visual inspection for inadequate return air:

   if there is only a single air return inlet, where is it located? Is the return isolated from some rooms in the building if the doors to those rooms are closed?

   Is the return air inlet size (length x width) smaller than the cross section of the air inlet end of the air handler or blower assembly? A mismatch in return air inlet grille or duct size will reduce the system's effectiveness.

2. Visual inspection for prior attempts to "improve" return air

   such as holes cut into an existing return air duct, or worse, openings cut to admit more "makeup" air into the air handler from an un-conditioned space such as an attic or crawl area.

   These are discussed

   at ADDING RETURN AIR at the AIR HANDLER

3. Temporarily or momentarily opening an air handler cover:

   if by opening the cover on a blower assembly or air handler unit you feel a dramatic increase in the airflow coming out of the building's air supply registers, then the system is probably return[-air starved.

   We have opened a cover just a few inches and released it to hear it slam with tremendous force against the blower cabinet when the system lacked adequate return air.

   Watch out: See our safety warnings just below.

4. Have the HVAC system examined by a professional:

   really this is the best approach once you've eliminated very obvious mistakes like those listed

   at RETURN DUCT AIR LEAKS.

Also keep in mind that a properly-working air handler or blower assembly will always be running with negative air pressure in the blower compartment - otherwise it wouldn't be moving any air through the duct system. So a certain amount of "pull" of air rushing into the blower that also wants to re-close the blower compartment door is normal.

Watch out: it may be necessary to temporarily tape or bypass a blower door compartment interlock switch to try this subjective test. Don't leave the door interlock switch bypassed or taped - doing so is dangerous.

Details about this switch are at BLOWER DOOR SWITCHES.

Quick Simple Check for Air Flow at Return Registers

A simple test for air movement at the return air inlet is illustrated in our sketch.

For true air flow measurements that provide quantitative results such as air flow measured in CFM,

see AIR FLOW MEASUREMENT CFM.

In that article at HVAC AIR FLOW RATE CFM, TYPICAL Specifications for HVAC equipment we describe typical HVAC air flow rates measured in CFM.

Adding Return Air at the Air Handler - Sometimes a Dangerous Idea

When the cooling ability of an air conditioning system is inadequate, particularly when the volume of air being delivered in the building seems too low, we often see evidence of an attempt to boost heating or cooling air delivery in this "stopgap" manner.

We find extra return air openings having been cut in the return plenum right at the air handler unit at a combination air conditioning and hot air heating furnace or at an attic or basem*nt air conditioning-only air handler.

Indeed this boosts the air coming out of the system if the air handler was "air starved" due to insufficient return ducts in the first place. An example of this poor practice is shown in the photograph.

But this is a very inefficient way to operate the system since a significant portion of the air volume is moving only "one way" from an attic or basem*nt into the cooling unit and out to a remote living area.

This is an expensive way to run an air conditioning system: keep taking "new" air, cool it, and blow it where it's wanted. Proper design re circulates air from the occupied space which permits it to be cooled and filtered.

Watch out: Worse than inefficient, the approach of taking return air from a basem*nt or crawl space utility area where gas or oil fired heating equipment is located can be dangerous, in particular if by the location of the "new" return air opening draws flue gases from a nearby draft hood or barometric damper, or if the heating equipment is located in a small enclosed space where drawing return air can interfere with the provision of adequate combustion air for the heating equipment.

Flue gases: may be drawn into the duct system if these "improvement" openings are cut too close to heating equipment, particularly gas-fired furnaces, boilers, and water heaters. We say more about this

at DANGEROUS HVAC DUCTWORK

Improve Return Air Flow by Fixing These Return Air Flow Defects

Blower Fan too Slow for Cooling Season

An HVAC system that is simply not capable of moving enough cubic feet of air per minute will not be able to adequately cool or warm the occupied space.

Higher air speeds are needed during the cooling season than during the heating season.

Carson Dunlop Associates' sketch (left) points out that the (typical) desirable rate of cool air flow in an air conditioning system is around 400 to 450 cubic feet per minute per ton of cooling capacity.

Example: a two-ton air conditioning system will move (2 x 450) or about 900 cfm.

Details about measuring the air flow rate in HVAC systems, air handlers, and duct work are

at AIR FLOW MEASUREMENT CFM .

The illustration also points out that if air flow is too slow across the cooling coil, that component may become ice or frost-blocked.

Also see FROST BUILD-UP on AIR CONDITIONER COILS for details.

What slows down the air speed in an air conditioning or warm air heating system?

Here we provide a list of causes of inadequate air flow, including conditions that slow the speed of movement of air through the duct system as well as other HVAC duct system defects.

For our complete list of HVAC duct system inspection, diagnosis, and repair topics

see .

• Air filter

  or other item that has been sucked into the duct system will block air flow and can risk a fire if drawn into the blower assembly fan,

  DIRTY AIR FILTER PROBLEMS

  are perhaps the most common cause of unsatisfactory airflow in an HVAC system.

• Air leaks from unconditioned space into the air supply system

  mean that cool air is diluted in summer or warm air is diluted in winter.

  The sketch at above left illustrates a common diluting air leak that can reduce the effectiveness of air conditioning during the cooling season: a humidifier intended for winter use that short-circuits return air right over into the supply air duct without passing it through the cooling coil.

  Sketch at above left courtesy Carson Dunlop Associates and is used with permission.

• Air Registers Located Outside the Room (return air)

  mean that if the room door is closed and not under-cut, both heating and cooling capacity in that room will be reduced. (See sketch above)

  To understand the effect of a room that has only air supply registers and no return registers when the room door is shut, just imagine the air conditioning or warm air heating system having to blow air into a pressurized space.

  Sketch at above left courtesy of Carson Dunlop Associates, a Toronto home inspection, education & report writing tool company [ carsondunlop.com ].

• Blower Fan:

  dirty blades on a squirrel cage blower assembly fan significantly reduce the blower fan's ability to move air into the HVAC system from the return-air side as well as reducing its ability to push conditioned air into the occupied space.

  See details at DIRTY A/C BLOWERS

• Ductwork too small or duct sizes mismatched

  between the air handler, supply plenum, return air plenum, blower assembly, cooling coil. See the sketch at above left: the cross sectional areas of the supply ducts and return ducts at the furnace or air handler should be about the same size.

  Sketch at left courtesy of Carson Dunlop Associates, a Toronto home inspection, education & report writing tool company [ carsondunlop.com ].

• Flex duct defects:

  Collapsed sections of flex duct block or stop airflow in either supply or return air systems

  See for examples of crimped, sagging, or crushed flex-duct.

• Insulation loose in air ducts: Collapsed duct interior insulation,

  See FIBERGLASS DUCT, RIGID CONSTRUCTION

• Leaks in the supply air duct system

  are a very common HVAC duct defect that results in poor heating or cooling air flow.

  See LEAKY DUCT CONNECTIONS.

  Also see these defective duct materials that may lose insulation and also may develop leaks:

• ALLOY SYSTEMS FLEXDUCT
• DURA-FLEX FLEXDUCT
• GOODMAN GRAY FLEXDUCT
• OWENS CORNING FLEXDUCT
• OWL FLEXDUCT
• Oversized furnace:

  causing short cycling & other air flow problems;

  see details at FURNACE OVERSIZE PROBLEMS

• Return air inlets:

  Return air inlet grilles that are obstructed with dirt, debris, or furniture or that are improperly located or are just too small mean that because the heating or cooling system is "starved for air", the supply air flow into occupied spaces will also be reduced.

  See

• HVAC return air ducts located inside concrete slab floors may have collapsed;

  and in slab ducts also invite flooding, mold, insects, and where transite - cement asbestos - ductwork was used, asbestos particle contamination or collapsed ductwork. (See sketch above, courtesy of Carson Dunlop Associates, a Toronto home inspection, education & report writing tool company [ carsondunlop.com ].)

  See SLAB DUCTWORK for details about problems with HVAC air ducts located in slabs

  Also see ASBESTOS DUCTS, TRANSITE PIPE for details about asbestos in transite air ducts

• Zone dampers thatare stuck

  partly closed obstruct air supply into that building area, or if stuck "open" when the zone damper should be closed, airflow to other building areas will be reduced.

  See ZONE DAMPER CONTROLS

References for Technical Help in HVAC Return Air & Duct Efficiency Improvements

• A Guide to Insulated Air Duct Systems. North American Insulation Manufacturers Association, 44 Canal Center Plaza, Suite 310, Alexandria, Va 22314.
• ASHRAE, ASHRAE Handbook. "HVAC systems and equipment." Atlanta (2016) [PDF] American Society of Heating, Refrigerating and Air-Conditioning Engineers, Inc.1791 Tullie Circle, N.E., Atlanta, GA 30329(404) 636-8400 http://www.ashrae.org description & table of contents.
• ASHRAE, ASHRAE Fundamentals [PDF] description of the handbook contents, American Society of Heating." Refrigeration, and Air-Conditioning Engineers, Inc., Atlanta, GA Op. Cit.
• ASHRAE, ASHRAE REFRIGERATION Handbook , A. S. H. R. A. E., and S. I. Edition. "American Society of Heating." Refrigeration, and Air-Conditioning Engineers, Inc., Atlanta, GA
• Building Energy Codes Resource Center, "Open Spaces as Return-Air Options - Code Notes", retrieved 2017/11/27, original source: https://www.energycodes.gov/sites/default/files/documents/cn_open_spaces_as_return-air_options.pdf

  Excerpts:

  Some jurisdictions want every bedroom to have a return-air duct directly back to the HVAC cabinet. Yet field measurements in typical homes indicate that second-floor return-air ducts relying on building cavities for air transport are often so leaky that they returned little air to the HVAC blower.

  by code, building cavities used for air return can only convey air from one floor level back to the HVAC blower (2006 and 2009 IRC M1601.1.1 #7).

  Above-Ground Duct Systems: Item #7 Stud wall cavities and the spaces between solid floor joists to be utilized as air plenums shall comply with the following conditions:

  7.3 Stud wall cavities shall not convey air from more than one floor level.

  7.4 Stud wall cavities and joist space plenums shall be isolated from adjacent concealed spaces by tight-fitting fire blocking in accordance with Section R602.8. IRC2009, Section M1601.4.1

  The prohibited sources section allows for permanent openings between rooms in order to connect spaces together to meet a return-air location requirement:

  Item 4 prohibits return-air sources as follows: "A closet, bathroom, toilet room, kitchen, garage, mechanical room, boiler room, furnace room, unconditioned attic or other dwelling unit."

  Item 5 prohibits "A room or space containing a fuel-burning appliance where such a room serves as the sole source of return air." - IECC 2009 Section 403.2.2 Sealing

  The 2009 IECC Section 403.2.2 requires that duct systems be pressure tested, or all ducts and air handlers be located in conditioned space. Building cavities used to convey return air located over a crawlspace or next to an unconditioned space would be required to be tested.

  As an inexpensive and effective alternative to sealing ducts, the code specifically allows air return by connecting rooms by permanent openings. For example, hallways can be part of the return-air path. Two generic approaches are identified that fit the code.

• Duct Design for Residential Winter and Summer Air Conditioning and Equipment Selection (Manual D). Air Conditioning Contractors of America, 1513 16th Street, N.W., Washington, DC 20036.
• Energy-Efficient Design of New Low-Rise Residential Buildings. Standard 90.2-1993. American Society of Heating, Refrigerating, and Air Conditioning Engineers, 1791 Tullie Circle, N.E., Atlanta, GA 30329.
• Flexible Duct Performance and Installation Standards. Air Diffusion Council, One Illinois Center, Suite 200, 111 East Wacker Drive, Chicago, IL. 60602-5398.
• Home Energy Magazine, Special Issue-Ducts, Rediscovered.September/ October 1993. 2124 Kittredge Street, No. 95, Berkeley, CA 94704
• IMPROVING the EFFICIENCY of YOUR DUCT SYSTEM, [PDF] U.S. Department of Energy, (1999) copies also available from Energy Efficiency and Renewable Energy Clearinghouse
  P.O. Box 3048 Merrifield, VA 22116, retrieved 2017/11/28, original source: https://www1.eere.energy.gov/buildings/publications/pdfs/building_america/27630.pdf
• Installation Standards for Residential Heating and Air Conditioning Systems. Sheet Metal and Air Conditioning Contractors’ National Association, Inc., 4201 Lafayette Center Drive, Chantilly, VA 22021.
• McIlvaine, Janet and Philip Fairey,"Design and Construction of Interior Duct Systems," Florida Solar Energy Center, (FSEC).
• Richardson, David, "An Introduction to Static Pressure", RSES Journal (November 2014), Website: www.rsesjournal.com, retrievbed 2017/11/27, original source: https://www.rses.org/assets/rses_journal/1114_Static.pdf
• Taylor, Steven, "Return Air Systems" [PDF] ASHRAE Journal (March 2015), Taylor Engineering, LLC., Taylor Engineering, LLC 1080 Marina Village Parkway, Suite 501
  Alameda, CA 94501-1142 510-749-9135 (tel) , retrieved 2017/11/28, original source: http://www.taylor-engineering.com/Websites/taylorengineering/articles/ASHRAE_Journal_-_Return_Air_Systems.pdf
• Taylor, S. "Making UFAD systems work."[PDF] ASHRAE Journal 58, no. 3 (2016). Retrieved 2017/11/27 original source: http://www.taylor-engineering.com/Websites/taylorengineering/articles/ASHRAE_Journal_-_Making_UFAD_Systems_Work.pdf
• This Old House; Heating, Ventilation, and Air Conditioning. Trethwey, Richard. Little, Brown. 1994

...

Reader Q&A - also see

On 2020-09-1 by (mod) - is the door bottom gap going to provide sufficient return air flow

On 2020-09-12 by Matt

I have a intake that is in the stairwell going down to the basem*nt. At the top of the stairwell is a door leading up to the main floor. There is about a 2 inch gap at the base of the door. Is this gap important to keep open or can I close that gap to prevent a draft?

On 2020-09-06 by Kathy

Replaced filter and blower motor it’s sucking air not blowing it out? It’s running counter clockwise?

On 2020-08-31 - by (mod) -

On 2020-08-31 by Randy Salisbury

Moving intake vent up closer to HVAC. Instead of on the floor level it's above the same area about 8 ft above floor level and closer to the HVAC system. Possibly creating my heater or air conditioning working harder than it needs to be? I was told it is a violation because it's above the level of the thermostat? Is there a specific regulation that requires the intake to be at floor level?

On 2020-03-04 by Anonymous

Yes

On 2020-03-03 by John

The siding of our condo unit was recently replaced. I notice that there is now a 1/4" gap around the HVAC grille that was left unsealed, resulting in cold air from outside entering the closet where the unit is located. The return air from the living space is ducted into the closet, but not into the unit itself. It is my feeling that the gap should be sealed. Am I correct?

On 2020-03-01 - by (mod) -

That sounds reasonable, Susan. What is your question?

On 2020-03-01 by Susan

On 2020-02-18 8 by Jim S

Gas furnace, Supply air only 80 degree single stage blower, return air same size as supply air opening.

On 2019-07-29 - by (mod) - most of my return air lines are not connected back to the AC

On 2019-07-29 by Dan Winter Garden FL

I discovered that most of my return air lines are not connected back to the AC. Instead my Master Bedroom and living room are jumped together. 2 bedrooms and hallway are all jumped together. At the opposite end of the house away from the Master bedroom I have 2 large return intakes. I guess they feel these 2 returns will pull air from opposite end of the house. Well I have no pull in any of the rooms were the vents are jumped together. How do I connect the returns? House is 2200q ft with 4 ton AC.

On 2019-06-08 - by (mod) -

I don't know, that sounds like what we call a short circuit in the air system. Perhaps you could have had some photos and we can figure it out. One photo per comment.

On 2019-06-07 by Chris Carson

Why would there be a duck from the output of the air handler to the return Plenum With a waited manual damper

...

Continue reading at UNDERSIZED RETURN DUCTS or select a topic from the closely-related articles below, or see the complete ARTICLE INDEX.

Or see RETURN AIR INCREASE FAQs - questions & answers posted originally at this page.

Or see these

HVAC Return Air Improvement Articles

• AIR FLOW IMPROVEMENT, HVAC
  • AIR FLOW MEASUREMENT CFM
  • AIR FLOW RATES in HVAC SYSTEMS
  • AIR FLOW TOO WEAK
  • AIR LEAK NOISES
  • AIR LEAKS in RETURN DUCTS
  • AIR LEAKs in SUPPLY DUCTS
  • BALANCING AIR DUCT FLOW
  • BLOWER FAN SPEED SETTINGS - how to set the air handler fan speed
  • COOL AIR SUPPLY IMPROVEMENT
  • DIRTY A/C BLOWERS
  • DIRTY AIR FILTER PROBLEMS
  • DIRTY COOLING COIL / EVAPORATOR COIL
  • FROST BUILD-UP on AIR CONDITIONER COILS
  • FURNACE OVERSIZE PROBLEMS
  • INSULATION BLOCKED COOLING COIL
  • LEAKY DUCT CONNECTIONS
  • RETURN AIR, INCREASE
  • - home
  • SLAB DUCTWORK
  • UNDERSIZED RETURN DUCTS

Suggested citation for this web page

RETURN AIR, INCREASE at InspectApedia.com - online encyclopedia of building & environmental inspection, testing, diagnosis, repair, & problem prevention advice.

Or see this

INDEX to RELATED ARTICLES: ARTICLE INDEX to HVAC DUCT SYSTEMS

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Citations & References

In addition to any citations in the article above, a full list is available on request.