Copeland Compression Technologies
Industry-leading, innovative and efficient HVACR compression technologies for the residential, commercial, industrial and transportation industries.
Copeland is now a standalone company. As the global leader in providing sustainable heating, cooling and refrigeration solutions, we’re helping residential, commercial and industrial customers reduce their carbon emissions and improve energy efficiency.
Copeland marks 100 years of air conditioning and refrigeration innovations through its Copeland technology
From the food we enjoy every day to the comforts of home at night, Copeland compressors live at the heart of the HVAC and refrigeration systems that homeowners, businesses and industries have depended on for almost a 100 years now. There’s a reason Copeland is specified by more HVACR professionals than any other compressor brand. Every product is engineered and tested for ultra-reliable, quiet operation, and we are constantly improving the technology to meet today’s energy and environmental standards. And our award-winning Copeland scroll technology continues to set the pace for better comfort, better cooling everywhere.
When Copeland first pioneered the use of scroll technology in compressors, it changed the industry forever. Since then, Copeland scroll compressors have been installed over 150 million times and the technology remains at the forefront for HVACR applications, impressing contractors and original equipment manufacturers (OEMs) with its superior efficiency, proven reliability, and ease of installation.
Copeland scroll compressors work with one scroll orbiting in a path defined by a matching fixed scroll. The fixed scroll is attached to the compressor body while the orbiting scroll is coupled to the crankshaft. The orbiting motion creates a series of gas pockets traveling between the two scrolls. On the outer portion of the scrolls, the pockets draw in gas then move it to the center of the scroll where it's discharged. As the gas moves into the scroll's center, the temperature and pressure increase to the desired discharge pressure.
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