Variable-Speed vs. Single-Speed Blowers

Of all the components in a air handler (a/k/a furnace), the blower is one of the most important. As the name implies, the blower does the job of pushing the cooled or heated air into the ducts so that it can flow into all the rooms of your home. Obviously, the blower can use a lot of energy to do that very important work, and it’s reflected in your utility bills. Changing the way the blower operates can help you lower your energy costs.

Variable-Speed vs. Single-Speed Blowers

If you’re thinking about upgrading, and your priority is energy efficiency, you should seriously consider a variable-speed blower motor, instead of a single-speed motor. Why?

•A single-speed blower motor cannot be adjusted. The speed is set when the air handler/furnace is installed in your home. This means that the blower is either on or off, and when it’s on, it runs at the same speed, no matter what.
•A variable-speed blower, however, operates at different speeds. Because the motor won’t be running at full tilt when it’s on, your air handler/furnace will operate more efficiently.

Here are two examples of how a variable-speed blower motor can function in your air handler/furnace:

•Soft Start: The blower kicks on at a lower speed when the thermostat signals the air handler/furnace to go on. It runs at that speed for a designated time. If the house is warmed sufficiently, it will never go on full blast. If the house doesn’t warm up sufficiently, the blower will speed up.
•Continuous operation: An air handler/furnace with a variable-speed blower can be set to run on an ongoing basis, operating continually at a low speed. This is not only more energy efficient, but also important if you have HVAC components such as a whole-house humidifier or a whole-house air filtration system that depends on the blower being on.

Our goal is to help educate our customers about energy and home comfort issues (specific to HVAC systems). For more information about Indoor Air Quality and other HVAC topics,click here to visit our website

DBX1000 Plastic Dryer Vent Box

The DBX1000 Dryer Vent Box with snap on trim ring. Made of High Impact Polystyrene. The DBX1000 dryer vent box comes in two sizes 4" (For a 2x4 wall) or a 6" size. (For a 2x6 wall) This dryer vent box can also be used to down vent, just turn the box upside down and your done. The DBX1000 comes with a snap on trim ring which helps elimate repairs and saves you time.

The dryer vent box helps eliminate all the excess dryer venting behind your dryer. It really make a neat, clean area.

Our goal is to help educate our customers about energy and home comfort issues (specific to HVAC systems). For more information about Indoor Air Quality and other HVAC topics,click here to visit our website

LOCKING CAPS

Locking Caps Guard Against Huffing and Stealing
Your air conditioner or heat pump has an indoor unit and an outdoor unit connected by copper refrigerant lines. The refrigerant within these lines is the working fluid that enables the cooling and/or heating of your home. Unfortunately, it was also a contributor to the tragic loss of a young life, which led to recent changes in the model building codes. These locking caps are designed to deter people from stealing or misusing refrigerant.

Our goal is to help educate our customers about energy and home comfort issues (specific to HVAC systems). For more information about Indoor Air Quality and other HVAC topics,click here to visit our website

EPA Issues Warning on Hydrocarbon Refrigerants

The U.S. EPA issued a press release warning HVAC contractors, homeowners, and home improvement contractors against the improper use of propane based refrigerants that pose a fire and explosion risk. This follows a Frequently Asked Question (FAQ) posting on the EPA website related to a specific refrigerant, R-22a, that has recently shown up in retail stores.
Contractors should be aware that hydrocarbon refrigerants are illegally being marketed as “replacement” refrigerants. In June the EPA began enforcement actions against Enviro-Safe Refrigerants, Inc., of Pekin, Illinois, for producing and selling a product called ES 22a in violations of the Clean Air Act.

Hydrocarbon refrigerants pose a special hazard for HVAC contractors unaware of their presence in a system. Before performing any work, contractors should ask customers if they have used Frost22a, and check the area with a combustible gas detector, and purge the system with nitrogen before using a torch.

The EPA press release is below:
EPA Warns Against Use of Refrigerant Substitutes That Pose Fire and Explosion Risk

Release Date: 07/01/2013
Contact Information: Dale Kemery (news media only), Kemery.dale@epa.gov, 202-564-7839, 202-564-4355
WASHINGTON – The U.S. Environmental Protection Agency (EPA) is warning homeowners, propane manufacturers and sellers, home improvement contractors and air conditioning technicians of potential safety hazards related to the use of propane or other unapproved refrigerants in home air conditioning systems.

EPA is currently investigating instances where propane has been marketed and used as a substitute for HCFC-22 (R-22), a refrigerant that is widely used in home air conditioning systems.

Home air conditioning systems are not designed to handle propane or other similar flammable refrigerants. The use of these substances poses a potential fire or explosion hazard for homeowners and service technicians.

EPA is aware of incidents that have occurred both overseas and in the U.S. where individuals have been injured as a result of the use of propane and other unapproved refrigerants in air conditioning systems. We are investigating and will take enforcement actions where appropriate. Other names for these unapproved refrigerants include R-290, 22a, 22-A, R-22a, HC-22a, and CARE 40.

At this time, EPA has not approved the use of propane refrigerant or other hydrocarbon refrigerants in any type of air conditioner. Homeowners and technicians are strongly recommended to limit use of propane or other hydrocarbons to only those appliances specifically designed for these substances and that are properly marked to alert technicians that the equipment contains a flammable substance. EPA has approved the use of propane as a substitute refrigerant for R-22 in industrial process refrigeration systems and in new, stand-alone retail food refrigerators and freezers that are specifically designed to use flammable hydrocarbon refrigerants.

R-22 is being phased out of production and importation under the Montreal Protocol, an environmental treaty ratified by every country in the world designed to reduce and eventually eliminate the use of ozone depleting substances. EPA’s Significant New Alternatives Policy (SNAP) Program has already listed numerous refrigerants with improved environmental, health and safety profiles and continues to evaluate other refrigerants that can be used to replace R-22 and other ozone-depleting substances.

Our goal is to help educate our customers about energy and home comfort issues (specific to HVAC systems). For more information about Indoor Air Quality and other HVAC topics,click here to visit our website

MORE ABOUT R-22

Really interesting article from Air Conditioning Contractors of America.

Actions, or to be more precise inactions, by the Environmental Protection Agency (EPA) have caused confusion and uncertainty about the availability of virgin R-22 for residential and commercial cooling and refrigeration systems.
R-22, or as it is commonly known, Freon, is a hydrochlorofluorocarbon (HCFC) gas that for decades has been used as a refrigerant in dozens of residential, commercial, and industrial appliances, such as central air conditioners, heat pumps, and commercial refrigerators. It’s not a byproduct or emissive gas, but unfortunately when it is released into the atmosphere it is known to deplete the ozone and it has a high global warming potential.

So, how did we get into this situation with rising prices? The EPA controls the production and import of HCFCs through Allocations Rules that tell each companies how much virgin R-22 they are allocated to produce or import in a given year. Allocations rules typically cover a five year term.

Just days before the start of 2010, the EPA issued an Allocation Rule for 2010 through 2014. This particular Allocation Rule caught the industry off guard when it banned the manufacture of pre-charged HVAC equipment intended for new installations, but allowed the manufacture of uncharged, or dry-charged units, to be used as a replacement parts.
The 2010 Allocation Rule failed to recognize a legal trade between two manufactures who sued the EPA and won in 2011. The judgment ordered EPA to perform a regulatory “do-over” for the remaining years (2012-2014) with an Adjustment Rule to allow those companies to recoup money from the lost allocations.

Unfortunately, the EPA didn’t finish the Adjustment Rule before the year it was to take effect and 2012 began with the producers and importers of R-22 without the legal authority to manufacture or import R-22.

Recognizing this problem, the EPA sent “No Action Assurance” letters to the producers and importers of R-22, alerting them that they could temporarily resume the manufacture and import of R-22 for the rest of the year even though EPA hadn’t set the new allocation amounts. These letters advised that production would be curtailed by 45% of their last allocation amount.

At the time it was expected that it would take the EPA until the summer of 2012 to complete the Adjustment Rule.
Unfortunately, the EPA still hadn’t finished the Adjustment Rule by the start of 2013, so once again the EPA had to issue “No Action Assurance” letters.

Finally this past April, the EPA released the Final Adjustment Rule for 2012-2014. This means that some of the uncertainty has been cleared up and manufacturers and contractors know what to expect through 2014. However, the price of R-22 may not drop due to the rule being completed.
Even with the final rule in place, the question remains, will this issue arise again when the EPA needs to set new allocations for 2015-2019?

Our goal is to help educate our customers about energy and home comfort issues (specific to HVAC systems). For more information about Indoor Air Quality and other HVAC topics,click here to visit our website

Kickstart® Hard Start Devices

Before the invention of Kickstart® hard start devices, the only starting devices that were approved and recommended by compressor and equipment manufacturers consisted of a potential relay (as dictated by the compressor make and model) connected by multiple wires to a start capacitor (also dictated by the compressor make and model). With 365 different relay/capacitor combinations possible (73 potential relays x 5 start capacitors), HVACR contractors who wanted to be ready for any trouble-shooting situation were forced to carry multiple types of relays and multiple types of start capacitors in their service vehicles, which then had to be wired together with three wires by the contractor himself – a cumbersome, time consuming, and costly necessity.

Then, in 1989, Kickstart® hard start devices arrived in the marketplace. At first glance, Kickstart® hard start devices appear to be no different than the multitude of two-wire start-assists that have been on the market since the early 80’s. But a closer look reveals a high-quality potential relay combined with a high-quality start capacitor. It is this “true” potential relay that distinguishes the Kickstart® brand of hard start devices from other starting devices that still use timers, PTCR devices, or circuit boards. It is the unique patented design that allows a single potential relay to replace the multiple potential relay inventories without sacrificing quality.

With the development of high-efficiency compressors, the original TO-5 (now used for 1 to 3 ton) had to make room for the larger KS1 (for 3.5 to 5 ton). Then came the KS8 (for use in less demanding torque requirements), the MP1 (for use on Maneurop® compressors) and four KSTS models (KSTS216, KSTS238, KSTS243, KSTS324) for use on Bristol’s TS (Twin-Single) Compressors.
Ongoing research and development garners ever-increasing product approval from leading compressor and equipment manufacturers, thereby establishing the Kickstart® name as both pioneer and leader in the HVACR arena of starting devices.

What do Kickstart® devices do?
Kickstart® hard start devices utilize a capacitor/relay combination to allow your air conditioning and heat pump compressors to start with maximum efficiency thus reaching normal rated speed at up to ten times faster than compressors with no hard start device installed. During start-up, a typical compressor motor with no hard start device installed has an electrical efficiency rating (also known as "power factor") of less than 50%. That means only 50% of the available power is being utilized to start the unit. Under those conditions, the compressor has to work much harder and is exposed to a lot of excess heat that is generated with each and every start. With a Kickstart® device installed, the electrical efficiency is boosted to over 98% enabling all of the available power to reach the compressor for smooth, fast starts.

What are the benefits of having a Kickstart® device installed on my air conditioning or heat pump compressor?
The two main benefits of installing a Kickstart® hard start device are:

Life extension of your compressor
By reducing the duration of "inrush" current, Kickstart® hard start devices minimize the amount of damaging heat that compressor windings are otherwise subjected to during start-up. Over time, this reduced stress on insulation, wiring, and other critical components of the compressor has the effect of increasing its reliability and extending its useful life.

Reduced "light flicker" during compressor start-up
Air conditioning and heat pump compressors (especially those with higher SEER ratings), often produce the undesirable side effect of "light flicker" when they start-up. Because the Kickstart® hard start device brings the compressor to rated speed up to ten times faster than normal, energy consumption is minimized and noticeable "light flicker" is usually completely eliminated.

If hard start devices are so important to my compressor, why doesn’t my unit come with one already installed?
At one time, all single-phase air conditioning, heat pump, and refrigeration compressors were equipped with hard start devices at the factory. Several years ago, however, manufacturers decided to discontinue that practice for most air conditioners and heat pumps in an effort to reduce costs. Refrigeration compressors, on the other hand, were considered to be so critical to homeowners (due to potential food spoilage, etc.), that hard start devices continued to be installed to ensure reliable starts time after time.

Because the average homeowner is unaware of these developments, the makers of Kickstart® have teamed up with your local hvac service contractor to make sure you have the information you need to take the best care of your air conditioning equipment. With a Kickstart® device installed on your air conditioning or heat pump compressor, you can rest assured that your unit will start reliably with the least amount of energy consumption and stress each and every time.

Our goal is to help educate our customers about energy and home comfort issues (specific to HVAC systems).For more information about Indoor Air Quality and other HVAC topics,click here to visit our website

Marley Engineered Products: Electric Wall Heater

Some news about wall heaters:

The Artisan SmartSeries electric wall heater automatically adjusts wattage output for optimum comfort. It provides only the amount of heat needed at any given moment by continually calculating heat output and fan speed of the proportional difference between room temperature and the set temperature. The heater has a five-day/two-day programmability with four program periods per day. A built-in fan delay operates when the unit is turned off after heating to prolong element life. Fan delay also prevents the fan from coming on until the element has warmed up. The wall heater has a fan-only mode (no heat) for supplemental ventilation. Touch-activated controls offer sleek styling and easy operation. The BMS feature allows connection to building management systems (dry contact). The wall heater heats within 1.5°F of set temperature. The heater can be locked out for security so settings cannot be changed. It has easy-to-use touch-screen operation with adjustable soft-signal beeps. The hold mode maintains constant set temperature, which can be used for freeze protection or vacation setting. The heaters are available in four colors (Northern white, Navajo white, bronze, and aluminum).

Our goal is to help educate our customers about energy and home comfort issues (specific to HVAC systems).For more information about Indoor Air Quality and other HVAC topics,click here to visit our website