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InsightsTechnology


BABY, IT’S COLD OUTSIDE, BUT A FURNACE KEEPS YOU WARM INSIDE

Sense
November 17, 2020

The home furnace is essential to our comfort as the days get shorter and
temperatures dip below 50 degrees in many states. Today central heating keeps
homes evenly warm in the chilliest weather, but just a century ago, heating was
far less reliable and dirtier than it is today.

In the early part of the 20th century, coal was the standard of excellence for
home heating in cool areas. The coal delivery truck dumped a load of dusty,
black coal down a chute to a bin in the basement. From there, it was shoveled
into coal-burning furnaces that heated the home. It was messy, but centralized
heating was a big improvement over fireplaces.

In 1919, an inventor, Alice Parker, patented a central heating system that
pulled cool air into a furnace where it was heated by natural gas combustion.
The warmed air was carried by natural convection from the heat exchanger in the
furnace, usually located in the basement, up through a network of ducts to each
room of the house.

Although Parker’s invention wasn’t commercialized, it was the first of a new
generation of furnaces that replaced coal with natural gas,



making home heating cleaner and more convenient.

Less than 20 years later, furnace design was updated again with the addition of
an electric fan to blow the warm air throughout a house. Safe oil burners were
invented in the 1930s. In 1940 more than half of U.S. homes still burned coal in
their furnaces, according to the Census Bureau, but after World War II, most new
homes were equipped with boilers or furnaces fueled by oil, propane, or natural
gas. As fuel oil prices increased starting in the oil crisis of the 1970s,
natural gas rose in popularity, especially in cold climates, and as natural gas
prices have fallen, it’s become even more economical.

Today most homes are heated by natural gas furnaces, electric furnaces, or
electric heat pumps, with choices varying by climate. In the hot, humid
Southeast, where winters are mild, electric heating for cold days is common. In
the cold Northern states, most homes are heated by central furnaces using
natural gas. But the choices in individual homes vary widely. In its 2015 study
of 5,687 households, the EIA observed more than 150 unique combinations of
heating equipment and fuels.



Source: US Energy Information Administration



Home heating accounts for nearly a third of annual utility costs for a typical
U.S. household, so reducing the operating costs of your heating system can make
a significant impact on your utility bills. Luckily, innovations have begun to
make home heating more efficient while lowering the impact on climate change.

In this two-part article, we’ll look at three advances that reduce the energy
footprint and operating cost of the furnace: condensing gas furnaces, air source
heat pumps and ground source heat pumps.



CONDENSING GAS FURNACES

The basic parts of a gas furnace are the burner, heat exchanger, ductwork, and
ventilation pipes or flue. Natural gas or propane is ignited in the burner and
vented up a chimney flue or through ventilation pipes. The flames heat up a
metal heat exchanger, which transfers its heat to cool incoming air. The
furnace’s blower forces the heated air into the ductwork which distributes it
throughout the home. As the warm air fills each room, the colder, denser air is
drawn back into the furnace via return ducts in forced hot air systems, starting
the process over again. All of this activity is controlled by the thermostat,
which measures temperature in the rooms and tells the furnace to turn on or off.

For homes with steam or hot water heating, the gas furnace is paired with a
boiler that heats up water, which is then pumped through pipes to radiators
around the house.

Rather than venting the hot exhaust gases from the heat exchanger out the flue,
condensing gas furnaces capture more of the heat in a second heat exchanger and
return it to the home. The exhaust gas cools in the secondary exchanger, making
carbon dioxide and water. The condensate drips out of the furnace into a catch
basin 

Image credit: Utilities Kingston

while cool gas vents out of the house through a pipe.

The efficiency of a furnace is measured by its AFUE (Annual Fuel Utilization
Efficiency) rating. Whereas conventional gas furnaces have an AFUE rating of
80-83%, condensing gas furnaces can achieve the highest AFUE ratings of over 90
percent, with some reaching more than 98 percent.

Condensing gas furnaces have many other features to boost efficiency, including
better insulated blower compartments, more energy efficient motors, higher
efficiency air filters, heat recovery ventilators,
electronic ignition and electronic controls that modulate the gas burner.
Because the exhaust gas is cool, a plastic vent pipe can carry it out of the
house rather than requiring a chimney.

We calculated that if an old furnace used 80K BTUs with a 80% AFUE and it was
replaced with a new furnace that delivers 96% AFUE, we’d be saving about $380
annually, so the payback period would be nearly 8 years for a furnace that costs
$3000. You can calculate your annual AFUE savings with a new furnace here. Your
savings depend on the system being correctly designed, installed, and operated.

Most utilities offer rebates for condensing gas furnaces that are ENERGY STAR
certified. Be sure to research your utility’s rebates before replacing your
furnace.

HOW SENSE TRACKS FURNACES

When the Sense home energy monitor detects a furnace, it’s tracking the
components that use electricity: the igniter turning on, the blower motor
running and the draft inducer fan circulating hot air into the ducts. While it
doesn’t capture the energy consumed by burning gas or oil, it can tell you how
the system components are working, which provides clues to its operation or
malfunctioning.



Here’s the energy signature of a furnace. Most working furnaces take 30 to 60
seconds for the draft inducer fan to start up, the igniter to turn on and then
the blower motor to start, ready to blow warm air. By analyzing thousands of
these sequences using Sense’s machine learning algorithms, we know that the
timing of this sequence is very consistent for any particular furnace-thermostat
pair.


But if the igniter doesn’t work, and the flame doesn’t spark, the furnace will
turn off instead of starting the blower. The entire sequence is compressed into
a shorter time frame, and since the flame didn’t ignite, the igniter will try
again. In the Sense app, you’ll see a series of these energy patterns in
sequence until finally the igniter does its job and gets the flame to ignite,
triggering the complete cycle. This repetitive sequence can help you diagnose a
failure in your ignition system. If you see this pattern, it’s time to schedule
a service call to replace the igniter before it fails.


Without Sense tracking these events, you’d need to be quite attentive to your
furnace. You might notice a long pause between the thermostat calling for heat
and the blower finally turning on. Or if you sat by the furnace, you could hear
the draft inducer motor turning on and off, and perhaps some clicking from the
igniter. Typically, though, you’ll discover an igniter failure when the furnace
stops working.


In the second part of this article, we’ll look at heat pumps.

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