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Heating/Cooling: A Home's Biggest Energy Users

Posted by Green Builder Staff

Sep 5, 2014 4:37:00 PM

Know the Lingo

  • Annual Fuel Utilization Efficiency (AFUE): The percentage of a fuel’s potential energy that a furnace or boiler converts to usable heat. Government standards that take effect in 2015 require AFUE levels of 82% for gas boilers, 83% for oil boilers, 80% for gas furnaces and 82% for oil furnaces.
  • Air Handler: In a forced-air heating or cooling system, the air handler unit moves heated or cooled air through the home’s ductwork.
  • British Thermal Unit (BTU): The unit of measurement for heat, whether it’s the heat given off by burning fuel or extracted from a home for cooling. Technically, one BTU is the energy required to raise one pound of water one degree Fahrenheit.
  • Combustion Chamber: The part of a furnace or boiler where the fuel is burned.
  • Compressor: That part of the air conditioner or heat pump that compresses and pumps refrigerant.
  • Condenser Coil: The part of an air conditioner or heat pump that releases heat from the surrounding air in cooling mode and collects it in heating mode.
  • Distribution System: The network of air ducts or hot water pipes that delivers heat from a furnace, boiler or heat pump to the home’s rooms.
  • Evaporator Coil: The part of an air conditioner or heat pump that exchanges heat with the air in the home.
  • Heat Exchanger: Located in the furnace or boiler, it transfers heat from the combustion chamber to the air or water in the heat distribution system.
  • Heating Seasonal Performance Factor (HSPF): The heating efficiency of a heat pump. It’s a ratio of the heat it generates over the heating season, in BTUs, to the watt-hours of electricity it consumes. Heat pumps manufactured after 2006 have to have an HSPF of at least 7.7, but the best units have ratings as high as 10.
  • Seasonal Energy Efficiency Ratio (SEER): The cooling efficiency of an air conditioner or heat pump. It’s the ratio of cooling output to electricity used. The minimum SEER requirement for units manufactured beginning in 2006 is 13.
  • Zoning: A method of partitioning a home’s hydronic or forced-air distribution system into independently controlled comfort zones.



AT THE HEART OF MOST HOMES' HEATING SYSTEMS is a furnace, a boiler or a heat pump. A furnace burns fossil fuel to heat air that’s forced by a blower fan through a series of ducts to the living spaces; a boiler heats water that’s then pumped to a hydronic, or water-based, distribution system. Most heat pumps run on electricity. They don’t create heat, but rather extract it from the air or the ground. Heat pumps are available for use with forced-air and hydronic distribution systems. If you want to minimize your fuel bill, an Energy Star rating is a minimum standard for these appliances.

Gas furnace
A modulating gas furnace is the most technologically advanced fossil fuel-burning furnace you can get, with efficiencies as high as 97% (that’s the percentage of the fuel’s potential energy delivered as heat). It achieves this feat with a series of technical innovations. Gas is not as clean as we once believed, however, now that dirty methods of “fracking” are used in some extraction. The pollution may simply be happening at the front end of the process. No fossil fuel gets an environmental free ride. It’s a finite resource, not a renewable one.

One way that new technology squeezes more heating power from gas is with an exhaust heat exchanger. This exchanger steals back heat from the furnace’s waste byproducts. Another feature, flame modulation, adjusts the flame size, based on demand. These furnaces include variable-speed blower fans with high-efficiency electric motors. The ability to vary airflow and flame intensity also allows for nearly constant room temperatures and better air circulation.

High-Efficiency Boiler
A boiler burns oil, natural gas or propane to heat water. That heated water is then pumped through a system of pipes to radiators, baseboard heaters or a radiant floor.

A good boiler will offer efficiencies of 90% to 95% and will include many of the same technologies as a high-efficiency furnace. These include a modulating burner that matches the heat output to whatever the thermostat is calling for at the moment, advanced heat exchangers to extract more heat from the same amount of fuel, and the ability to recover heat from the exhaust gas by condensing it. The resulting exhaust is cool enough to be vented out of a plastic pipe. In the best cases, this condensing process can squeeze 10%–12% more usable energy out of the fuel.

Air-Source Heat Pump
A heat pump is basically an air conditioner that works in reverse to provide heat. The heat pump captures and concentrates heat from one area, then releases it to another.

In heating mode the heat pump takes heat from the outdoor air and delivers it to the home’s distribution system. In cooling mode, it reverses direction to work like an air conditioner, extracting heat from inside the house and blowing it outside. In cooling mode, this waste heat can also be used for water heating. The most common type is the split system, which uses separate indoor and outdoor units, but you can also get packaged systems that place everything in a self-contained outdoor unit. While air-source heat pumps can offer efficiencies of 200%–300%, they’re most efficient in the southern part of the country. A backup electric or gas heater may be needed when the outside air drops below a certain temperature. Although different versions are made for forced-air and hydronic distribution, the forced-air type is the most common. Heat pumps don’t get air as hot as a furnace or boiler, so may require more airflow to maintain the same temperature.

A geothermal heat pump (GHP) uses refrigerant-filled underground piping loops, installed horizontally or vertically, to exchange heat with the earth. These systems work well in both warm and cold climates. A good GHP is able to move three to five times more energy than it consumes. Models are available for use with forced-air or hydronic distribution systems. While the hydronic models don’t get water as hot as a conventional boiler (122 °F, compared to 150 °F or more) their low temperature output is a perfect match for radiant floor heat.

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