<button id="puq3b"></button>

<li id="puq3b"><acronym id="puq3b"></acronym></li>
      <dd id="puq3b"><pre id="puq3b"></pre></dd>
    1. <dd id="puq3b"><big id="puq3b"><video id="puq3b"></video></big></dd>

      HEAT PUMPS
      Making Heat Out Of Nothing At All?


      Heat pumps can be very efficient heating for your home in moderate conditions. If the outdoor temperature is around 50* F, heat pumps work very well. In lower temperatures than this they begin to lose efficiency.

      Extreme climates may not be the best choice of an area to install a heat pump, unless it is utilized as part of a dual-fuel system. We will discuss dual-fuel systems later in this page.

      How a heat pump works

      Performance is achieved by extracting heat from cold outside air! This is a hard concept for some to understand. There is heat in cold air! A heat pump pulls this heat from the outside and pumps it into the indoor unit, where it is distributed to heat the home.

      This is achieved by reversing the air conditioning process. An air conditioner cools a home by absorbing indoor heat into a refrigerant charge and transferring that heat to the outside. A heat pump accomplishes the same chore, only in reverse. The outdoor unit absorbs outdoor heat into the refrigerant charge and transfers that heat to the inside.

      The heat pump and air conditioner can be the same unit, heating during the winter, and cooling during the summer.

      A heat pump moves heat, instead of generating heat, therefore they can be highly efficient. A heat pump can produce as much as 4 times the amount of energy it consumes.

      The reversing cycle is also hard to understand. Compare the heat pump to a car’s transmission. In a car, the transmission can be switched between forward and reverse. The same effect can be achieved with a heat pump by switching the thermostat.

      Site Build It!

      The conventional, or most common, heat pump is an air-source heat pump. If you previously heated your home with electricity, an air-source heat pump can save 30%–40% on your heating costs. For that matter, any heat pump is generally more efficient than heating with electricity.

      Heat pumps are also more effective at dehumidifying a home, than standard air conditioners, which results in less energy consumption and better cooling comfort during the summer months.

      Extreme climates call for Dual-Fuel systems

      As mentioned earlier a heat pump works well in moderate climates. The colder an area’s winters are, the less desirable a heat pump becomes. As outdoor temperatures plummet, a heat pump must operate longer to maintain the desired indoor temperature. At below 40* F, a heat pump must run non-stop to try to maintain set-point.

      This is the point where both efficiency and comfort are compromised.

      If one lives in an extreme climate and still desires a heat pump, this is where dual-fuel comes in to play. A dual-fuel system utilizes a secondary heating system, which will kick on and assume the heating chores once it is too cold for the heat pump to perform.

      Dual-Fuel systems utilize various methods of providing emergency or auxiliary heating. These methods can be natural gas fired furnaces, propane furnaces, electric furnaces , or an air handler fitted with electric heat strips .

      In most areas of the US, natural gas is much less expensive than electricity, so the gas-fired furnace is usually the natural choice for a component in a dual-fuel air-source heat pump system.

      Efficiency ratings

      Just like a conventional central air conditioner, a heat pump’s efficiency is rated by SEER (Seasonal Energy Efficiency Ratio). They also have an HSPF (Heating Seasonal Performance Factor) rating. These are measurements of how much heat and cooling a unit can produce from a given amount of electricity. The higher the SEER and HSPF rating, the more efficient and less costly to operate.

      The unspoken truth here is that the higher the SEER and HSPF ratings, the more expensive the equipment is to install, as well. So there is a trade-off. Pay a little more now, or pay a lot more over the life of the equipment in operation costs.

      In years gone by, many heat pumps were only 6 SEER. Today a heat pump can range up to about 16 SEER. The least efficient unit available for purchase today is a 10 SEER unit. Any heat pump with a SEER rating above 14 is considered a high efficiency unit.

      The HSPF for the same unit ranges from 5.9 to 8.8.

      The demand for higher efficiencies has driven manufacturers to improve compressors, increase heat exchanger surfaces, and improve refrigerant flow.

      New developments in motors, controls and compressors are increasing efficiencies at leaps and bounds. New levels are attained each year spurned on by the competition between manufacturers.

      Advanced scroll compressor design coupled with two-speed or variable speed compressors are attaining SEER ratings well above 20 SEER.

      At the lower end of the range, air-source heat pumps usually have single-speed reciprocating compressors. Mid-range units usually utilize scroll or improved reciprocating compressors, with very little in the way of design differences.

      Heat pumps with the higher SEER ratings and higher HSPFs invariably use variable or two-speed scroll compressors.

      R22 refrigerant phase-out

      The most common refrigerant used for the past 4 decades, and still the most common today, is R22, or Freon-22. R22 is a hydrochloroflourocarbon (HCFC), which is harmful to the environment.

      In 2010, heat pumps or air conditioners that utilize R22 refrigerant will no longer be imported or manufactured in the US.

      Read more about the R22 refrigerant phase-out
      The EPA is overseeing the R22 phase-out

      Other Types and Configurations of Heat Pumps

      For retro-fit applications in a home without existing ductwork, air-source heat pumps called Ductless mini-splits are available. These units can be installed for as many as 4 rooms, with separate control, tied to a single outdoor unit. See our Ductless Split page.

      Geothermal ground-source or water-source heat pumps transfer heat between the ground or a water source, such as a pond. This type of system can be very costly to install, but are highly efficient. The geothermal heat pump is not hindered by colder climates due to the fact that ground or water temperatures are relatively constant. See our Geothermal page.

      Other Related Pages
      Heat Pump Pros 'n' Cons: Is a HP Right for Your Home?
      Ground-Source-Heat-Pumps: Mother Earth Will Wrap You In Warmth
      Air Handlers fitted with Electric Heat strips


      Depart Heat Pumps and Return to HOME

      Please feel free to link to this page from your website. This page's URL is: http://www.hnzige.com/heat-pumps.html

      棋牌线上网站