Heat pump with air Conditioner
THE PRODUCT:
Central air conditioners and heat pumps utilize a large compressor unit located outdoors to distribute cooled or heated air through a forced-air system. In a central air conditioning unit, the compressor cycles air from indoors over a coil filled with refrigerant to cool the inside. Heat pumps, on the other hand, are two-way air conditioners. While heat pumps can provide cool air, a reversing valve allows a heat pump system to reverse the air conditioning cycle, where the compressor cycles heat from the outside over a coil for distribution indoors. Central air conditioners and heat pumps can either be “single package” systems, where the evaporator coil and the condensing unit are combined into a single physical unit, or “split systems, ” where the condensing unit is typically placed outdoors while the evaporator is indoors. Split system equipment is far more common than single package systems.
THE STANDARD:
The prior national standards for central air conditioners and heat pumps, which raised the minimum Seasonal Energy Efficiency Ratio (SEER) requirement from 10 to 13, became effective in 2006. In January 2010, HVAC manufacturer representatives and efficiency advocates presented a negotiated consensus agreement to DOE to increase efficiency standards for central air conditioners and heat pumps. The consensus agreement included regional standards for three regions: the South, the Southwest, and the North, reflecting varying HVAC needs for each climate. DOE issued a direct final rule (DFR) in June 2011 based on the standard levels in the consensus agreement. The DFR became effective on October 25, 2011. The new standards increase the minimum cooling efficiency requirement to SEER 14 for split system central air conditioners in the South and the Southwest while maintaining the SEER 13 standard for the North. The new standards also include EER (Energy Efficiency Ratio) requirements for the Southwest region to ensure efficient operation at high outdoor temperatures. For heat pumps, the standards raise the cooling efficiency requirement to SEER 14 for all three regions and also increase the heating efficiency requirements.
The effective date of the standards is January 1, 2015. However, due to uncertainty caused by recently-settled litigation, DOE has agreed to an 18-month grace period during which noncompliant central air conditioners manufactured prior to January 1, 2015 may be installed. The grace period ends on June 30, 2016. DOE plans to publish new rules pertaining to the enforcement of regional standards in 2015
DOE estimates that the standards will save about 1 quad (quadrillion Btu) of energy over 30 years and yield a net present value of about $4 billion at a 3 percent discount rate.
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