Barron Heating AC Electrical & Plumbing Blog: Archive for the ‘Duct Problems’ Category

Is Aeroseal Right for You?

Monday, November 21st, 2016

Do you have uncomfortable hot or cold rooms in your house, dusty or musty air that aggravates allergies, or high utility bills that leave something to be desired month after month? The bad news: You may have leaky ducts.

The good news: Aeroseal’s duct work sealing technology has helped improve home comfort, overall air quality, and energy savings in homes across the country. When 30 cents of every $1 spent on heating/cooling leaks before making it to your living space, properly sealed ducts make a big difference in savings.

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HVAC Helper – A Glossary for Homeowners

Monday, March 9th, 2015

HVAC HELPER

A glossary for homeowners or business-owners thinking about heating, air conditioning, and home performance

AFUE (Annual Fuel Utilization Efficiency) – AFUE is the rated efficiency of a combustion furnace. For example, a 95% AFUE model loses 5% of its produced heat up the chimney. In other words, $1 of fuel combusted in an 80% AFUE model loses $0.20 before it even enters the ducts.

Condensate (Condensation) – Heat pumps, air conditioners, and modern furnaces produce condensation and the removal of this collected water is always considered in system design.

Cold Air Return – The “cold air return” is the intake side (sucking side) of a duct system. This duct pulls air from the home and feeds it to the furnace to be reheated for distribution. Leaks in the return air duct are very important to seal as they allow material to be pulled in from wherever they lead (attics, crawlspaces, etc.). Unducted wall cavities are not acceptable for cold air returns in the modern HVAC world, as they are known to reduce efficiency and cause health safety issues.

COP (Coefficient of Performance) – This is an efficiency rating system that compares the output of heat to the consumption of electricity. An electric baseboard or electric furnace (aka resistance heat source) has a COP of 1.0, which means that for every unit of electricity that goes in, you get one unit of heat energy out. A heat pump may have a COP of 3.0- for every unit of electricity that goes in, you get three units of heat energy out.
$1 of heat with a baseboard heater = $3 of heat with a Heat Pump (3.0 COP)

Ducted Filtration and Furnace Filters – Filters located on either the furnace or grille end of the intake duct protect the furnace components from the build-up of airborne particles. More advanced filtration systems can be effective at cleaning the air in a home, but only if the duct and house leakage has been addressed. Filters are rated on the “MERV” scale based on how small of particles they are able to remove from the air stream.

**The Supply Duct Filters available at hardware stores are not recommended. They will negatively affect efficiency and air quality, as well as damage equipment.

Duct Sealing – According to extensive nationwide studies, duct leakage is a leading cause of wasted energy, poor indoor air quality, excessive dust, and comfort complaints. A study by the U.S. Department of Energy found that the typical duct system loses between 25% and 40% of its paid-for heat! Leaks are repaired with either hand applied material or a more comprehensive internal seal using an aerosol dispersed polymer (www.AeroSeal.com).

Duct Sizing – Proper duct sizing is of absolute importance in effectively delivering conditioned air to the home. Improper duct sizing can lower the efficiency of the system, limit distribution (affecting comfort), and cause unnecessary ware on equipment.

Electric Resistance Heat – Think “toaster”. Baseboard heaters, wall heaters and electric furnaces are all forms of electric resistance heat technology and produce heat by passing electricity through a material that causes “resistance,” heats up and then radiates that heat either into an air stream or directly into a room. This is a very inefficient form of heating by modern standards and is going the way of the dodo as a primary heating source in most situations.

Fan Motors – There are two types of fan motors in the world of furnaces:

ECM (Electronically Commutated Motor) – These are variable speed motors that can ramp up and down depending on the call from the thermostat or furnace.

PSC (Permanent Split Capacitor) – These are single speed motors that are on or off.

Heat Pump (Ductless Mini Split) – Ductless Heat Pumps are the world’s most popular heating system. For most standard application, they are the most efficient and cost effective to install. For this reason, utility companies offer significant incentives to upgrade. This is a zonal heating system that operates on a refrigerant technology (see “Heat Pump” below). They do not utilize a duct system to distribute conditioned air.

Heat Pump (Forced Air) – Heat Pumps are really just an air conditioner that can go in reverse. In addition to the cooling process, these have the ability take the heat from the outdoor air and transfer it to the inside of your home. When the heat bearing refrigerant enters the “coil” at the furnace, the heat is picked up in the air stream and distributed into the home. This technology is significantly more efficient at creating heat than propane or electric resistance and even more efficient than natural gas.

Home Performance (AKA, Building Science) – Home Performance refers to the understanding that the whole house as a system and each component affects all others. For example: leaks in the ductwork will worsen indoor air quality, raise utility bills, cause drafts, shorten the lifespan of the furnace, and negatively affect health; air leaks to the attic through recessed lighting will do all the same things; both together will affect those things, but even more so. Because of these relationships, understanding your home’s performance through diagnostic testing is recommended by the US Department of Energy, Energy Star, and Consumer Reports before making any investment in heating, cooling, energy efficiency, or home health upgrades.

HSPF (Heating Season Performance Factor) – HSPF is the standard rating system for Heat Pumps. This is a rating given by regulatory agencies to compare the efficiency at which the heat pump operates to that of other  heat pumps.

Indoor Air Quality (IAQ) – “Indoor air quality” refers to the potential impact of your home’s air on occupant health and comfort. IAQ is judged on the presence of humidity, dust, radon gas, mold, fiberglass particulate, carbon monoxide and many other conditions. IAQ should be considered a high priority as it will affect both the long and short term health of occupants. Poor IAQ can exacerbate or cause: asthma, sinus infections, chronic respiratory ailments, eczema, fatigue, headaches, and many other issues.

Refrigerant – Refrigerant is the substance used in air conditioning and heat pump systems to transfer heat between the interior and exterior of the home. The refrigerant is transported in copper tubing between the indoor and outdoor coils. When the refrigerant is pressurized it absorbs heat from the air around it.

Registers (aka Grilles) – Registers, grilles, diffusers, and grates are all basically the same thing. In the industry they are commonly referred to as “grilles” or “diffusers.”

SEER (Seasonal Energy Efficiency Ratio) – SEER is the standard rating system for air conditioners. This is a rating given by regulatory agencies to compare the efficiency at which the air conditioner operates.

Static Pressure – Static pressure is the outward pressure of a substance against its container. In this industry we are concerned most often with the static pressure of the air in the duct system. Good static pressure allows for even distribution throughout the home, efficient removal of heat from the furnace’s heat exchanger or refrigerant coil, and less noise as the air ejects from the grille. Bad static pressure can exacerbate leakage, damage heating equipment, and significantly lower efficiency.

Supply Air – “Supply air” ducting is the delivery system for conditioned air- warm or cool. Supply air ducts should always be well sealed as any air that is lost out these pressurized ducts is lost to the outside, even when it is in a wall or floor cavity.

For more information, call or email your Home Performance Experts and set up a Home Performance Assessment!

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The Right Ventillation Keeps the Home (and you!) Healthy

Thursday, October 16th, 2014

A Heat Recovery Ventilator efficiently sends fresh, healthy air into a tightly sealed home, while removing stale air that can cause a slew of health problems. And it does all this while capturing the heat of the discharged air and warming the fresh clean air at the same time. This article from 360Chestnut accurately describes the importance of this device and how ventilation is crucial in the overall health of a home.

Energy Efficient buildings are not making you ill, it’s bad ventilation

There has been coverage in the press recently about how Energy Efficient buildings may be making us ill. Is ‘sick building syndrome‘ is rampant in energy efficient buildings? Here at 360Chestnut we are as passionate about healthy homes as we are about energy efficiency. We would like to inform you, our readers, about what you may have been hearing on the news.

Mold growth and dampness in buildings are indeed major concerns, but this is nothing new in the building industry and it is certainly not isolated to ‘energy efficient’ buildings. Let’s start by what can cause mold in any building; warm, moist air, from people showering, cooking or just occupying a room, coming in contact with a cooler surface.

The warm, moist air condenses, the dampness soaks into your porous surfaces (such as your drywall), and creates a condition where mold will grow. Regardless of whether this happens in a poorly insulated building or a highly energy efficient building there will typically be one factor in common, poor ventilation. In a building with poor insulation the chances that this warm air will hit a cold surface is considerably higher though, so chances of mold growth are higher (insulation is very important)…. Continue reading

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Dateline Report- Duct Cleaning Scams Revealed!

Wednesday, October 8th, 2014

Our team at MHPE encourages all folks interested in duct cleaning to watch these videos before hiring a contractor.
These scammers are the worst kind of morons you could meet. Similar schemes have been found nationwide being used by dozens of seemingly reputable businesses.

Chris Hanson Files – Air Duct Cleaning Scams Part 1

Chris Hanson Files – Air Duct Cleaning Scams Part 2

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TELL-TALE SIGNS OF PROBLEM DUCTS

Friday, October 25th, 2013

Now that you know here each branch duct leads, you are in a better position to ask whether your system is likely to be a big energy loser. Here are the things to look for. 

Uninsulated Ducts in Unconditioned Spaces

Heat transfer through duct walls can contribute significantly to energy losses. Conductive heat losses are typically at least as great as the energy losses due to air leakage. If the duct system runs through an attic or vented crawlspace and is not insulated, you can be sure that much energy is being wasted. If the ducts are in a basement, you will have to weigh the fact that insulating the ducts will cause the basement to get colder. If both the ducts and the basement walls are uninsulated, you should consider insulating the basement walls instead of the ducts.

Disconnected, Torn, or Damaged Ducts

A thorough inspection of the duct system should be made to look for holes large enough to see. Some sections of duct that are supposed to be joined together may have fallen away from each other, leaving a gap through which large quantities or air can leak. Flexible duct sections may have been torn during installation or afterward. Fiberglass ductboard sections are subject to damage if weight is placed on them. Whatever the cause, visible holes in ductwork are a clear indication that the system needs fixing. Blind-Alley Ducts Occasionally found in duct systems that use joist spaces or other parts of the building structure to channel air flow, blind-alley ducts occur as a result of mistakes made during installation.

A blind-alley duct leads nowhere (except possibly to the outside), while the register it was supposed to serve has no source of heat. The room containing this register will then be too cold. If it is an important room, the thermostat setting may be raised in an attempt to get enough heat to this room. If a room always seem too cold or a register doesn’t seem to have any air flowing out of it, it may be worth investigating.

Inadequate Return-Side Ductwork

As we’ve noted, it is common to find building spaces pressed into service as part of the duct system. These tend to be leaky, especially on the return side. Even worse, some homes are designed without any return ductwork at all. In that case, unless the furnace is in the conditioned space, it will be surrounded by cold basement or crawl-space air and will have to use more energy to warm this cold air for delivery to the home than it would have if warmer air from the living space were available from return ducts. A system without return ductwork can also depressurize the furnace room, giving rise to the health hazards we’ve already discussed.

Content from D.O.E Reaseach & Develpment

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