As the City of Chicago finishes work before the official October 17 opening of the new Runway 10C/28C at O’Hare International Airport (ORD), control tower manager Robert Flynn released operational data of use to flight crews. Runway 10C/28C will be a Design Group VI surface 10,801 feet long by 200 feet wide. Its accelerate-stop distance available (ASDA) will be 10,540 feet, as will its landing distance available (LDA). Aircraft instructed to land on Runway 10C and hold short (LAHSO) of taxiway “GG” will find 9,610 feet of runway remaining.
A recent FAA flight check discovered a previously unknown obstruction beneath the Runway 4 ILS glideslope at New York La Guardia Airport (KLGA), ruling out a full ILS approach to that runway. Aircraft landing on Runway 4 can now use only the localizer approach, which carries minimums nearly 300 feet higher. In poor weather, the only practical option for the area is to operate both LGA and John F. Kennedy (KJFK) airports on a southeast runway configuration, which, in turn, creates significant arrival delays at nearby Teterboro Airport (KTEB).
Construction begins today on Runway 6/24 at Trenton Mercer Airport (KTTN), New Jersey, that will significantly restrict its use. The work, to install engineered material arresting systems (Emas) on both ends of the runway, will continue until November 8. Some approach and runway lighting and instrument approach systems will be unavailable and the runway will be closed to aircraft with approach speeds greater than 121 knots. The runway’s usable length will also be shortened by more than 750 feet. Construction work will be under way for approximately 20 hours each day.
California’s Van Nuys Airport celebrated the completion of a seven-month, $20.5 million renovation on its main runway late last week. Aerobatic pilot Sean Tucker sliced the ceremonial ribbon with the speeding wing of his Challenger biplane, officially opening the revamped runway to traffic.
The FAA is seeking responses to a notice of proposed rulemaking (NPRM) that it believes will significantly improve operational flexibility for operators using an enhanced flight vision system (EFVS). Comments on FAA-2013-0485 are due by September 9.
The control tower manager at Chicago O’Hare International Airport (KORD) published an airport notice effective August 19 that reminds pilots of locations where tower controllers are unable to see their aircraft after a “line up and wait” instruction is issued. These include the intersections of Runway 10L and Taxiway DD, Runway 32L and Taxiway T10, Runway 14L and Taxiway U2 and Runway 28R and Taxiway EE.
PlaneSense took delivery of the 1,200th PC-12 at its Portsmouth, N.H. headquarters last month during a ceremony hosted by company founder and CEO George Antoniadis. The aircraft is the 49th PC-12 acquired by PlaneSense since its founding in 1995 and launch in 1996. With retirements (typically after 6,500 hours of service) and replacements over the years, PlaneSense’s current fleet counts 30 of the turboprop singles, with an average age of five years (including the four core aircraft).
The FAA issued SAFO 13007, which warns pilots to use extra caution when taxiing on intersecting or active runways. “At many airports, it is common for ATC to use an active or inactive runway as a taxiway [to accommodate] airport geometry, construction, congestion or taxiway restrictions.”
A new fuel-saving and safety-focused aircraft taxi system is being tested at Frankfurt Airport (EDDF), Germany. The new taxi tool, called “follow the greens,” allows crews to add just enough power to taxi–without intermediate stops–to reach their airport destination. Controllers communicate the go/no-go signals to crews by turning on and off various portions of the airport’s green taxiway centerline lighting, which are also expected to help prevent runway incursions. Constant cockpit throttle positions are expected to save fuel.
The FAA is adopting a new airworthiness directive for the Dassault Falcon 7X requiring a new procedure in the airplane flight manual. It was prompted by a report of a runway excursion caused by failure of the nose landing-gear position-feedback assembly. The AD is designed to detect and correct an incorrect angle signal causing an uncommanded nosewheel deflection.