Why The Circular Runway Concept Would Not Work
It is worth noting, however, that circular runways are not a new concept. Today, any airport can be referred to with the technical term of “aerodrome,” but in the early days of aviation it specifically referenced airports that had large round runways. Not a turning, perimeter runway, but instead comprised of a giant circle that allowed aircraft to land straight and flat, in any direction across the middle of the circular field. This, of course, would occupy an absurd amount of space at modern commercial airports.
Banked Runway Issues
This designer says the aircraft can land at a slower speed, which I don’t see as necessarily safe. Wings will generate the most efficient lift when level to the ground, perpendicular to the demands of gravity. Any rolling or banking affects that, increasing the stall speed of the aircraft, making it more dangerous to fly slower.
This is concerning when planning for the event of engine loss during takeoff, which is a part of pre-flight calculations before every single departure. An aircraft already working hard to climb in this scenario would now be faced with getting away from the runway at a bank angle that is not generating its most efficient lift. Though you could conceivably let it land right back down on that same runway, sudden thrust differential on a banked and curving runway adds two variables to stopping the ailing aircraft. This is not to mention that you may have other aircraft on other sections of this perpetual runway that this aircraft would now be encroaching on. That means that what would otherwise be a well-practiced and non-issue engine loss instead receives more possible contributing factors to an accident.
Another big concern to me is traction. For every single flight, a large variety of factors is calculated to determine braking distance, and one of the more important ones is “contamination,” referencing precipitation or moisture that is on the runway. A runway that is wet, even without standing water, increases stopping distance, as does patchy snow, compacted snow, ice and all of the different variables we consider. The centrifugal force they advertise would lose effect as the aircraft slows, further killing traction.
Now imagine something remotely slippery, on a slanted runway. An aircraft trying to stop on a sideways slide that must also slowly turn down pavement that’s curving as well. How many runway excursions would be caused by aircraft sliding off of the edge during winter operations?
Curved Runway Issues
Aside from the curve affecting stopping on a contaminated runway, I have a concern about the curve making it difficult for the aircraft to even touch down on the centerline. While almost every landing is safe, not all landings are perfect. It is not uncommon for flights to get down to the runway and float some feet above the surface for a little, captured in what is called “ground effect.” On a curved runway, while the pilot is trying to comfortably plant the wheels down (while in a bank above the slanted runway, mind you), the centerline of the curved runway will be drifting off-center to its side, now adding the need to also turn the aircraft to the pilot’s workload. This level of challenge is the airline equivalent of landing on an aircraft carrier.
A claimed big selling point of the circular runway theory is that, because an aircraft can land anywhere in the circle, they can always land into the wind, ending the need to battle crosswind landings.
“Anywhere in the circle” becomes a challenge when considering how the aircraft will navigate to that specific, ever-changing touchdown zone. Unless visibility and cloud cover is wonderful, having precision guidance systems and visual aid lighting in place is vital to a safe (and delay-free) operation. With this new runway, how would that equipment be moved and adjusted, possibly flight by flight or hour by hour as winds change, to that moving landing zone?
When it comes to airspace, the two biggest “selling points” of the circular runway are being able to operate into the wind and also allowing 3 aircraft to land at once, brings about tremendous contradiction.
First, if wind is anything less than calm or very light, there is no way that 3 aircraft can land simultaneously in different areas of the circular runway if you are trying to avoid crosswind. If attempted, though one may be lined up nicely into the wind, the other 2 would then be landing with crosswind, with 1 of those experiencing both a crosswind and a tailwind (tailwinds are usually not permitted when over 10 knots). This makes this giant stretch of round pavement a single runway operation in any singnificant wind. So, congratulations, your extra special runway just took on an arrival rate worse than Newark.
Second, and more importantly to me in terms of safety, what about go-arounds? What if 3 airliners are landing, something goes wrong and they abort landings. Their prescribed go around procedure would likely take them dangerously close to the other aircraft also trying to land or go around themselves in more congested airspace than conventional runways with a parallel approach. And yes, multiple go arounds at once can and do happen, as Murphy demands.
Too good to be true
Keep in mind that one of the main motivations behind this is for it to be a solution to “tricky” crosswind landings. This is confusing to me, because aside from my feeling the idea doesn’t even do that effectively because of new threats it brings to the table, crosswind landings are not the safety threat that sensationalized headlines would make you believe. Though wind can and does cause delays at certain airports, crosswind landings have not caused an epidemic of accidents, or even small amount of fatalities in recent times by any measure.
Crosswind landings look scary for sure, but they are example of skilled airmanship that you should be in awe of, not frightful of. Clearly defined crosswind limitations and the ability to easily execute a go around if an approach becomes unstable are why air travel is as incredibly safe as it is. Those videos are examples of aviation safety working effectively. Websites that post videos of “wild,” “scary,” and “frightening” crosswind landings are clickbait. The creator of the circular runway concept even admits that he was “inspired by watching scary crosswind landings on YouTube,” not from any challenge or need that the aviation industry is actually facing. Pilot unions are not making demands for a solution to crosswind landings, and I feel this idea fails the sniff test from those with a working knowledge of aircraft, airline and airport operations.
In aviation, we have built the amazing safety culture and safety record that we have by figuring out everything that can go wrong, finding a solution to it, and then figuring out what we would do when that solution goes wrong, too. This “circular runway” concept only adds more, unnecessary variables that can go wrong, while not even solving an existing problem to begin with. Though I give it the thumbs down personally, I applaud organizations and people that are thinking. Even if this concept is were to not end up as a winner, it can lead to other ideas that will take us into the future.
Phil Derner founded NYCAviation in 2003. A lifetime aviation enthusiast that grew up across the water from La Guardia Airport, Phil has aviation experience as a Loadmaster, Operations Controller and Flight Dispatcher. He owns and operates NYCAviation and performs duties as an aviation expert through writing, consulting, public speaking and media appearances. You can reach him by email or follow him on Twitter.