REPLACEMENT
CONSIDERATIONS FOR
GAS FURNACES
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                                                                    Gas Furnace Replacement Considerations

There are several points to consider when choosing a replacement gas furnace.  I will list them in the order I believe they should be
considered by their overall importance.

Proper Installation:                This is the most important consideration and one the manufacturer has very little control.  They rely on
their contractor/dealer to sell the right equipment for the job, then install it following their instructions, and then test it to ensure it is
operating within proper operating parameters.  All the equipment comes with a complete instruction manual that includes all the mechanical and
building codes that apply to that furnace.  

When I worked for other contractors as a service technician I noticed that these manuals were hardly ever referenced.  I learned this after an
installation had already been completed often months prior and I was there doing a follow up service call.  It was then I discovered many times
that if the installers had followed the instructions I wouldn’t have had to go out and try to fix the deficiencies caused by their improper
installation.  By that time the fix would be costly and difficult though and would have been much easier if it had been done right in the
beginning.  

ASHRAE (American Society of Heating Refrigeration and Air Conditioning Engineers) is our national organization that is responsible for
determining standards for HVAC equipment. They conduct testing on equipment to find out the optimum requirements for airflow, temperature rise
and other essential engineering parameters.  They conducted a study in 1997 of over 1200 recent residential HVAC installations in Atlanta,
Georgia, their home city and found that only 3 out of 10 were properly installed and of the remaining 7 installs, 4 out of 10 were seriously
deficient in proper airflow and/or freon charge and would probably would experience a major failure such as compressor lockup or heat exchanger
cracking within a year.  These installations were not being done by fly-by-night unlicensed operators or small mom and pop operations but most
of them were being done by the larger well advertised and well respected companies in their community.

There are many procedures in the installation that require proper compliance and attention to detail.  Before the install even starts, when the
salesman/estimator comes out and evaluates the existing or new system, a properly sized duct system is essential.  There is a duct design
method developed by both ASHRAE and ACCA (Air Conditioning Contractors of America) that should be followed when sizing and installing duct
systems.  This duct sizing method is referred to as Manual D.   The size of the ducts, the type of fittings used, and the position of the duct
runs all contribute to a proper duct system.   

When examining a preexisting blueprint with a duct layout already drawn or designing a new duct system from scratch it is very important to
ensure the duct system is designed to correctly deliver the proper airflow. In the case of an existing drawing from an architect, don’t assume
the architect knows what he/she is doing in duct design.  If there are design flaws, this is the time to point that out before the design flaw
actually gets built

When replacing equipment, recognizing existing ductwork that is undersized is essential .  If inadequate ductwork is discovered, that should be
brought up.  Then the replacement proposal should include upgrades to the duct system to bring it to proper size for the airflow it must
deliver.  Most of the time, the return air duct is undersized.   An undersized return duct will act on a furnace or air handler like a person
who has asthma and it will be ‘gasping’ for air it cannot get.  The furnace will be overly noisy and might even whistle.  If the return air
duct is so restricted, the HVAC equipment will suffer from inadequate airflow which will cause liquid freon flood-back to the compressor in the
summer and over heating and subsequent cracking of the heat exchanger in the winter.  In addition to these consequences to the equipment the
house will also suffer with inadequate cooling and heating especially in rooms which are furthest from the furnace.

Here are other considerations.  Proper venting of gas furnaces is of the utmost importance to the safety of customer as well as impacting the
operation of the equipment.  Ensuring adequate combustion air is a must especially in closet installations.  Proper sizing of gas piping and
proper sealing of all the fittings of the gas pipe system prevents gas leaks and possible fire or explosions.  Having the correct size
electrical power to the equipment ensures safe operation of the equipment.  Proper selection and placement of the thermostat controls,
guarantees optimum temperature control. All of these items are outlined with detail in the installation manual which is often discarded or
ignored by many in this industry.  

Most residential HVAC companies pay their installers and service techs very little compared to the knowledge and responsibility they must
display.  The average installer makes between $8 to 12 dollars per hour with the top end guy maybe getting $15.  Service techs make a little
more than installers, about 10 to 15% more.  This is hardly the pay that is deserved by someone who impacts both your safety and comfort of
your family.   With the amount of knowledge that is required of technicians they should be getting a minimum of $20/hour.   

I know this first hand for I put in many years in this industry as a service tech, a salesman, as an instructor at both ITT and Ivy Tech, and
now as a HVAC contractor.   In the summer of 1998 when I was teaching I had to work for local contractor because I didn’t receive a full
contract at Ivy Tech State College for lack of enrollment.  They paid me $12/hr and they told me this was the highest hourly pay they had in
the company. They had even given me an extra $1/hr. because they didn’t have to provide me with health insurance since Ivy’s health plan
covered me over the summer.  They cautioned me not to tell a soul about my pay.  This wasn't a small HVAC company but one of the largest in
replacement furnaces and a/c units at least in terms of the number of permits they pull every year.  Even though this happened 13 years ago the
pay situation hasn’t substantially changed.     

The salesman/estimator is more than likely to be untrained in recognizing poor ductwork, but much more skilled in selling you more expensive
equipment and increasing their commissions. In addition to missing duct problems they also are notorious for over sizing the system just so
they can get a few more dollars out of the job.  Oversized equipment with undersized ductwork, is a formula for disaster.  The results are
systems that never work right from the beginning with unnecessary failures and unsatisfactory performance.  This is especially true in new
construction where the low bid gets the job and every corner that can be cut is cut resulting in duct systems and units which have chronic
problems.  I don’t understand why builders put such bottom-of-the-line equipment in their houses.  I’m not talking cheap houses either…it’s the
same even in the best homes.  I do a fairly good business rectifying mistakes made at the beginning with the construction of the house.      

Reliability:        You can go to websites such as www.furnacecompare.com  and other sites such as Consumer Reports to get other opinions on
the reliability of furnaces and other hvac equipment.  For the most part these sites are anecdotal and report only on the customer’s overall
experience of a furnace.  In many cases the problems reported with furnaces or brands are a reflection of poor job in installation or an
improper equipment selection process.  In those cases they are not complaining so much about the equipment as the expertise of the contractor.  

I sell Carrierwequipment.  I choose Carrier because they are the #1 manufacturers in the USA in terms of market share, 18% according to the Air
Conditioning and Heating Contractors Magazine.  I believe that when you do a lot of something you get good at it. When I sell a product I stand
behind it and I place my reputation on the line.  Selling equipment which breaks down or has parts that are hard to get is a sure fire way to
make my customers unhappy.  My business depends on my customers pleasure and comfort.  So I sell products that I am confident in so as to pass
that along.  My best advertising is word of mouth.  A happy customers will tell ten friends.  An unhappy one will tell hundreds.  

I like Carrier because they use a heavier grade sheet metal in their cabinets.  This makes them heavier, stronger, and less susceptible to
stray noise or vibration which in turn make them less likely to break down.  In addition their research department does extensive testing of
their products in a variety of harsh conditions inside environmental chambers.  When I was an HVAC instructor at Ivy Tech State College I
brought my students out to their factory on the Westside of Indy to see how the equipment is made and tested.  I was very impressed with their
diligence to quality and their commitment to excellence.  They test fired all the equipment that rolled off the assembly line to make sure it
would run.  If a piece didn’t work the first time they would roll it off the line and then repair it but they would only sell it as a ‘factory
second or rebuild’ to their non authorized dealer distributors.  

Efficiency or Cost of Fuel:        Higher efficient equipment is more expensive initially than standard efficient both from contractor cost and
the extra installation required on a PVC flue system.   Right now the standard efficient furnace needs to be a minimum 80% though that will
change in 2015 for northern states to 90%.  Higher efficiency is done by condensing the water vapor present as a by product of combustion
removing that heat from the flue gas.  In addition efficiency is improved by using an on demand system for lighting the gas, by the use of two
stage gas valves, by implementing modulating controls of both the inducer fan motor and the main blower motor and by designing the heat
exchanger so that there is more thorough contact and transfer of the hot combustion gas to the fresh building air.  

Efficiency of up to 96% is available though Carrier will have available a furnace which is 98% in this year 2011.  Most old  furnaces are
between 70 and 80% efficient with some of the old “lunkers” (pre 70’s) being about 50 to 60%.  High efficiency furnaces start at about 90 to
92% on the low end, a 93 to 95% in mid dollar range and then go to 95 to 96% on the high end.  I recommend a variable drive blower whichever
efficiency you go with for its’ ability to deliver better cooling airflow to upstairs rooms in the summer.  

If you go from an 70%er to a 95% that is an increase of 25% that should translate into a 25% reduction in your annual heating bill.  For the
average size modern house of about 2200 square feet that should save between $250 to $350 annually.  Since a furnace should last about 20 years
this is a lifetime savings of $5000 to $7000.  This amount would well the recuperate the extra cost of the more expensive furnace which might
add an extra $1500 to 2000 at the time of installation.  This does take into account the positive environmental impact of the smaller carbon
footprint of the more efficient furnaces, and the improved effect on our planet of less wasted energy, and the reduction in emission of CO2
which increases the risk for global warming.

To go to an even higher efficiency and more savings I would recommend either a furnace/heat pump combination called a hybrid or dual fuel
system.  See my page on heat pumps for more details.

Ease of Repair:                When it comes time to repair equipment it is important that parts are easily accessible, that the system is
easily understood, and that it even has a built in self troubleshooting system. Carrier  has all of these essential properties.   Carrier
especially goes out of their way to provide low cost training for the technician.  They have easy to read service manuals and their   

Availability and Cost of Parts:        Because of their popularity the Carrier parts are easily attained.  Carrier is made right here in
Indianapolis at their factory out by the airport.  There are three locations of distributors that handle Carrier parts in Indianapolis: two
Habeggers, and Koch.     In addition to these authorized distributors a lot of the parts can also purchased from aftermarket replacement
distributors who offer generic replacement parts for most of the common parts in Carrier.  In addition to the above parts suppliers there are
on-line parts vendors who sell a lot of the common parts.