Warning: call_user_func_array() expects parameter 1 to be a valid callback, function 'wl_acf_load_field_anchor_link_section' not found or invalid function name in /var/www/vhosts/propane/wp-includes/class-wp-hook.php on line 288
class="page-template page-template-templates page-template-page-builder page-template-templatespage-builder-php page page-id-10755 theme-wlion woocommerce-no-js" data-pid="10755">

COVID-19 Message for Consumers & Propane Providers   Learn More »

Learn More

COVID-19 Message for Consumers & Propane Providers   Learn More »

Learn More

Commercial gas furnaces are self-contained units that supply heated air to condition a wide variety of buildings. Many commercial HVAC designs use commonly available propane furnaces to efficiently and effectively heat commercial spaces.


  • Office Space.
  • Retail.
  • Multifamily Buildings.
  • Schools.
  • Restaurants.
  • Medical Buildings.
  • Warehouses.


  • Offer flexibility in both type and capacity of equipment.
  • Steady, comfortable, warmer heat than electric heat pumps.
  • Capacity from 44,000 Btu/h up to more than 1 million Btu/h.
  • Efficiency levels of 80 percent to 98.5 percent AFUE.


Propane furnaces offer great flexibility in both the type and capacity of the equipment, which makes them a good fit for many different commercial buildings. Smaller residential-scale units can range in capacity from 44,000 Btu/h up to 180,000 Btu/h with efficiency levels of 80 percent to 98.5 percent AFUE. Larger units with capacities greater than 225,000 Btu/h are measured by their Thermal Efficiency (ET), and can reach capacities greater than 1 million Btu/h.

A critical feature of these furnaces is their ability to condition different zones of a building. This allows the use of multiple, smaller furnaces (often packaged as Roof Top Units or RTUs) to be installed to meet
the heating needs of just one part of a building. Zoning offers improved efficiency and temperature control in the space, as well as modularity that can simplify installation and maintenance.

High efficiency propane furnaces — generally those with efficiency levels above 90 percent AFUE — capture additional heat from the combustion gasses and use this to increase the heat transfer of the furnace for greater efficiency. Many high efficiency propane furnaces are two-stage or variable speed units, so the furnace heats the building steadily and comfortably. And the heated air leaving the furnace is significantly warmer than temperatures offered by electric heat pumps.


The propane furnace is a versatile unit capable of meeting the heating demand of any commercial space. Lower capacity propane furnaces can even qualify for Energy Star’s Most Efficient label, which translates to energy savings of 20 percent or more on energy costs over a standard furnace.

In addition to high efficiency equipment, properly sized furnaces and RTUs help to optimize efficiency by reducing energy costs and increasing the life of the equipment.


High efficiency propane furnaces can provide energy, cost, and carbon savings in both new and existing buildings. To show these benefits, TABLE 1 compares a high efficiency propane furnace with a heat pump with a HSPF of 7.7 with electric resistance backup heating in a typical 3,600-square-foot retail space. Due to the large variety of commercial heating applications and the range of building sizes, this example was chosen to reflect a small commercial building or even a single zone within a larger commercial building.


As the example in the table illustrates, propane heating systems can offer a much smaller carbon footprint than other commercial heating options. CO2 emissions from heat pump RTUs are highest during the coldest months, when these units will rely more on electric resistance backup heating. This form of heating is inefficient, and in areas where electricity is generated from coal-fired power plants this translates into heavier CO2 emissions. By comparison, an RTU with a propane furnace providing some or all of the heating will produce lower CO2 emissions — often on the order of 50 percent lower, as the example shows.


Northeast Propane Furnace

Energy Star Most Efficient

$2,500 8.5 tons
Heat Pump (air source)

Standard Efficiency

$2,611 17.5 tons
Midwest Propane Furnace

Energy Star Most Efficient

$2,713 9.0 tons
Heat Pump (air source)

Standard Efficiency

$3,313 16.7 tons
Northwest Propane Furnace

Energy Star Most Efficient

$2,681 8.9 tons
Heat Pump (air source) —
Standard Efficiency
$3,623 17.4 tons


Download Fact Sheet