Reduced energy losses and improved privacy /global/scaled/3744x1629x0x1347x1000x435/Local-Reduced energy losses and improved privacy.jpg An automatic sliding door from ASSA ABLOY is saving energy costs, improving the indoor environment and enhancing comfort, privacy and safety for VIPs traveling through Stockholm’s main airport. Challenge The VIP entrance to Stockholm’s Arlanda Airport provides direct access tosecurity screening for government officials, heads-of-state and other high-profile visitorstraveling from Sweden’s capital city. It requires a secure, well-insulated automatic entrancethat opens and closes quickly and seals completely to preserve both the privacy and comfortof VIP travelers as they go through the security screening process. The secure nature of the access point to the airport further dictates that this door must be fully operational 100 percentof the time. Solution ASSA ABLOY supplied a Besam Slim Thermo sliding door with insulated glassand TightSeal features to limit both cold and warm air infiltration. The automatic door isequipped with an intelligent ASSA ABLOY ECO radar that senses which direction pedestriansare moving and consequently only activates the door when someone is entering the buildingand not just passing by. The directional sensor also closes the door quickly once the traveler issafely inside. ASSA ABLOY Entrance Systems is providing regular maintenance to ensure thatthe Besam Slim Thermo operates reliably and efficiently around-the-clock. Result According to ASSA ABLOY Entrance Systems’ energy savings calculation tool for pedestrian doors,Stockholm Arlanda Airport will see a 40 percent reduction in average energy costs from the combination of insulated glass and TightSeal features in the Besam Slim Thermo. Further savings can be anticipated from the ASSA ABLOY ECO radar, which closes the door 30 percentearlier than traditional radar, thus reducing heating and cooling losses when the door is open. An additional benefit is that, on average, ASSA ABLOY ECO radar cuts the number of door openings in half compared with conventional bi-directional radar, which can produce “phantom openings” when someone passing by the entrance accidently enters the activation field.