supermarket
Energy Savings
JCPenney Saved; Energy Star Earned - First Retail Buildings Earn the Energy Star Label
Release date: 10/30/2007
(Washington, D.C. - Oct. 30, 2007) Four JCPenney stores are the first retail buildings in the country to earn the Energy Star label for superior energy efficiency and environmental performance. Compared to similar stores nationwide, the JCPenney stores collectively spend almost a quarter of $1 million less per year on energy, and avoid over 3 million pounds of carbon dioxide (CO2) per year, equal to the greenhouse gas emissions associated with electricity use of nearly 200 homes.
"JCPenney, a 2007 Energy Star partner of the year, is once again demonstrating that what is best for the environment can be best for your wallet," said Bob Meyers, principal deputy assistant administrator for EPA's Office of Air and Radiation.
Of the almost 5 million commercial buildings in the United States, retail buildings account for the largest energy bills and are responsible for the second largest percentage of greenhouse gas emissions. With the recent availability of the Energy Star label for retail buildings, retailers can pursue significant savings in energy costs while fighting climate change.
Washington State is home to the four Energy Star JCPenney stores in the towns of Puyallup, Vancouver, Bellevue and Burlington. In total, these stores cover approximately 460,000 square feet and, on average, use about 35 percent less energy than typical retail stores nationwide, resulting in about 35 percent less CO2 emissions than retail stores in their region.
As of Oct. 1, 2007, retail buildings can qualify for the Energy Star label if they rate in the top 25 percent of similar retail buildings nationwide. With EPA's Portfolio Manager, an on-line energy performance rating system, the energy performance of four billion square feet of retail space and more than 400,000 retail buildings can be tracked and assessed.
Retail buildings that are eligible for the Energy Star label include department stores, discount stores, supercenters, warehouse clubs, drugstores, dollar stores and home improvement centers/hardware, and apparel/hard line specialty shops (i.e. books, clothing, office products, toys, home goods). In addition to retail, many other types of commercial and industrial buildings can earn the Energy Star label, including offices, bank branches, financial centers, courthouses, hospitals, hotels, K-12 schools, medical offices, supermarkets, dormitories, warehouses, auto assembly plants, petroleum refineries, cement plants and wet corn mills.
Energy Star was introduced by EPA in 1992 as a voluntary, market-based partnership to reduce greenhouse gas emissions through energy efficiency. Today, the Energy Star label can be found on more than 50 different kinds of products, new homes and commercial and industrial buildings. Products and buildings that have earned the Energy Star designation prevent greenhouse gas emissions by meeting strict energy-efficiency specifications set by the government. Last year alone, Americans, with the help of Energy Star, saved about $14 billion on their energy bills while reducing the greenhouse gas emissions equivalent to those of 25 million vehicles.
Contact Information: Enesta Jones, (202) 564-4355 / jones.enesta@epa.gov
For more information about the Energy Star for retail buildings: http://www.energystar.gov/labeledbuildings
APS Offers Refrigeration Recommendations -
APS, a Phoenix based Arizona Power Supply offers recommendations to grocers for energy savings. A brief description of each opportunity is included below.
High-efficiency evaporator fan motors – These small fans are typically less than one-tenth of a horsepower. A grocery store can have hundreds of them, so their energy consumption can be significant. Specifying high-efficiency motors for evaporator fans is almost always a good investment, and they can also be implemented on a retrofit basis. Energy savings are estimated to be about 2 percent of refrigeration system electricity use for reach-in freezers, 7 percent for reach-in refrigerators, 8 percent for grocery store display cases, 5 percent for ice machines, 14 percent for vending machines, and 29 percent for beverage merchandisers.³
High-efficiency condenser fan motors – Specifying high-efficiency motors on condenser fans is also a good idea. System energy savings estimates are in the 3 to 5 percent range.
High-efficiency compressor systems – Energy savings potential for high-efficiency compressors are estimated to be 6 percent for ice machines, 9 percent for vending machines and beverage merchandisers, 12 percent for reach-in refrigerators, and 16 percent for reach-in freezers.
Floating head pressure controls – Floating head pressure controls allow compressor head pressures to vary with outdoor conditions. This saves energy dollars and helps refrigeration equipment to last longer. Floating head pressure controls are often standard features on new systems; however, they can be retrofitted as well. Estimated savings range from three to 10 percent for grocery store systems.
Liquid pressure amplifiers –Liquid pressure amplifiers are small refrigerant pumps that raise liquid line pressure to increase system efficiency. For systems with air-cooled condensers, the lower the outdoor air temperature, the greater the efficiency gain. Energy savings can be up to 20 percent4.
Anti-sweat heater controls – Anti-sweat heaters are electric heaters installed in virtually all low temperature and many medium temperature display cases to keep their external surfaces free of condensation during high humidity conditions. Typically they are on all the time. Anti-sweat heater controls sense store humidity conditions and turn the heaters off when they are not needed. Energy savings estimates range from about six percent for grocery store display cases to 14 percent for reach-in freezers and 20 percent for reach-in refrigerators.
Defrost controls – Energy-efficient defrost systems improve the operation of the defrost cycle. The most effective controls are called demand controls which initiate defrosting in a variety of ways such as measuring the temperature or pressure drop across the evaporator, measuring frost accumulation and sensing humidity. All of these methods, if used properly, are more effective than using a simple timer clock to initiate defrosting. Energy savings estimates range from about one percent to six percent of refrigeration system energy use.
Evaporative condensers – Most refrigeration systems use air-cooled condensers to expel heat. Evaporative condensers use a wetted filter to cool ambient air as it enters the condenser increasing its ability to reject heat. Energy savings estimates range from about three percent to nine percent for grocery store refrigeration systems.
Ambient subcooling – Ambient subcooling involves the use of an oversized condenser or an additional heat exchanger to subcool liquid refrigerant. Savings estimates range from about one percent for grocery store systems to about nine percent for walk-in coolers.
Mechanical subcooling – Mechanical subcooling is an effective method of cooling liquid refrigerant below its saturation pressure in order to increase system capacity and improve efficiency. Energy savings are estimated to be as much as 25 percent for grocery store refrigeration systems.
Heat recovery – Heat recovery systems use heat removed from display cases to heat water. The amount of water that can be heated will depend on the situation. However, a 7.5 hp compressor can supply close to 100 percent5 of the hot water requirements in a medium-sized grocery store all year long.
Energy-efficient case lighting – T-8 fluorescent lamps and electronic ballasts are often used in new energy-efficient cases and can be retrofitted in existing cases as well. These high efficiency fixtures reduce lighting energy use and reduce the cooling load on the compressor. Energy savings potential is estimated to be about 10 percent for beverage merchandisers.
Add doors to display cases – Glass doors on open multi-deck display cases can reduce compressor energy costs, reduce cold air spillage and increase store comfort conditions. Doors can often be added to existing cases as a retrofit. Savings are estimated to be as high as 50 percent, and paybacks will typically be in the range of one to two years for retrofits.6 However, installing doors can cause the compressor system to be oversized so be sure to get assistance from a refrigeration professional when conducting a retrofit.
Energy-efficient reach-in refrigerators – When purchasing a new residential-grade refrigerator look for equipment with the EPA’s Energy Star® logo. Units that have earned the Energy Star logo use at least 30 percent less energy than required by federal government standards. Side-by-side refrigerator/freezers use significantly more energy than those with the freezer above the refrigerator. Use the EnergyGuide label on new refrigerators to select the most efficient model.
Operating and maintenance efficiency measures – Operating and maintenance practices can also significantly improve the efficiency of refrigeration systems. Clean cooling coils several times a year and make sure outdoor coils are shaded from the sun and have good air circulation around them. Make sure the doors on your freezers, refrigerators and display cases seal tightly, and repair any damaged door seals.
3 Energy Savings Potential for Commercial Refrigeration Equipment, U.S. DOE, 1996.
4 Source: HY-SAVE Inc.
5 Source: The Commercial Refrigerator Manufacturers Association's "Recommended Guidelines for Retail Food Store Design", 1/79
6 Source: Energy saving data in this paragraph taken from PG&E Application Note No. 53-43-82, 1982