Surging Heat May Limit Aircraft Takeoffs Globally

Study Sees Widespread Effects on Aviation

by |July 13, 2017

Rising temperatures due to global warming will make it harder for many aircraft around the world to take off in coming decades, says a new study. During the hottest parts of the day, 10 to 30 percent of fully loaded planes may have to remove some fuel, cargo or passengers, or else wait for cooler hours to fly, the study concludes. The study, which is the first such global analysis, appears today in the journal Climatic Change.

“Our results suggest that weight restriction may impose a non-trivial cost on airline and impact aviation operations around the world,” said lead author Ethan Coffel, a Columbia University PhD. student.

As air warms, it spreads out, and its density declines. In thinner air, wings generate less lift as a plane races along a runway. Thus, depending on aircraft model, runway length and other factors, at some point a packed plane may be unable to take off safely if the temperature gets too high. Weight must be dumped, or else the flight delayed or canceled.

Average global temperatures have gone up nearly 1 degree Centigrade (1.8 Fahrenheit) since about 1980, and this may already be having an effect. In late June, American Airlines canceled more than 40 flights out of Phoenix, Ariz., when daytime highs of nearly 120 degrees made it too hot for smaller regional jets to take off. Worldwide, average temperatures are expected to go up as much as another 3 degrees C (5.4 degrees F) by 2100. But that is only part of the story; heat waves will probably become more prevalent, with annual maximum daily temperatures at airports worldwide projected to go up 4 to 8 degrees C (7.2 to 14.4 F) by 2080, according to the study. It is these heat waves that may produce the most problems.

Due to warming climate, some aircraft may soon have a hard time getting off the ground in the heat of the day. Here, a jet takes off from the Canary Islands. (Bruno Gelger, via flickr)

Due to warming climate, some aircraft may soon have a hard time getting off the ground in the heat of the day. Here, a jet takes off from the Canary Islands. (Bruno Gelger, via flickr)

“This points to the unexplored risks of changing climate on aviation,” said coauthor Radley Horton, a climatologist at Columbia University’s Lamont-Doherty Earth Observatory. “As the world gets more connected and aviation grows, there may be substantial potential for cascading effects, economic and otherwise.” Most studies so far have focused on how aviation may affect global warming (aircraft comprise about 2 percent of global greenhouse-gas emissions), not vice versa. But a handful of studies have warned that warming climate may increase dangerous turbulence along major air routes, and head winds that could lengthen travel times. Rising sea levels are already threatening to swamp some major airports. Coffel and Horton may be the only ones so far to look at takeoffs.

In 2015, they published a smaller-scale paper, predicting up to four times more future temperature-related takeoff problems for the common Boeing 737-800 at Phoenix, as well as Denver, New York’s LaGuardia and Washington’s Ronald Reagan. The new study projects effects on a wide range of jets at these, plus 15 of the other busiest airports in the United States, Europe, the Mideast, China and south Asia.

The authors estimate that if globe-warming emission continue unabated, fuel capacities and payload weights will have to be reduced by as much as 4 percent on the hottest days for some aircraft. If the world somehow manages to sharply reduce carbon emissions soon, such reductions may amount to as little as 0.5 percent, they say. Either figure is significant in an industry that operates on thin profit margins. For an average aircraft operating today, a 4 percent weight reduction would mean roughly 12 or 13 fewer passengers on an average 160-seat craft. This does not count the major logistical and economic effects of delays and cancellations that can instantly ripple from one air hub to another, said Horton.

Some aircraft with lower temperature tolerances will far worse than others, and certain airports—those with shorter runways, in hotter parts of the world or at higher elevations, where the air is already thinner–will suffer more. For instance, facing LaGuardia’s short runways, a Boeing 737-800 may have to offload weight half the time during the hottest days. Dubai, in the United Arab Emirates, might be worse; its runways are long, but its temperatures are already very high. Airports probably less affected because they are in temperate regions and have long runways include New York’s JFK, London Heathrow and Paris’s Charles de Gaulle.

Horton said that some effects could be mitigated with new engine or body designs, or expanded runways. But modifications would come at a cost, as aircraft are already highly engineered for efficiency; and expanded runways in densely packed cities such as New York are not an option. “The sooner climate can be incorporated into mid- and long-range plans, the more effective adaptation efforts can be,” said Coffel.

The paper was coauthored by Terence R. Thompson of Logistics Management Institute, a Virginia-based consulting company that studies aviation and other issues.

6 thoughts on “Surging Heat May Limit Aircraft Takeoffs Globally

  1. Mike Borgelt says:

    Just as well we aren’t still in the Holocene climate OPTIMUM then when temperatures were higher than today’s.
    You might want to check how those global average temperatures were derived. Very dodgy “science”.
    It really is time that most of the world’s climatologists got real productive jobs. We could close much of the current university system and never notice the loss either.

  2. Jim Dorman says:

    On a 1955 LGO expedition to NW Greenland, Charles Bentley, Paul Pomeroy and I flew in a C-47 aircraft from a snow runway at 7000 ft elevation on the high ice cap. Our light load consisted of only a few hundred pounds of seismic equipment, plus a few Air Force passengers. Yet the plane used two JATO (jet-assisted takeoff) bottles and barely got off the ground at the end of the runway. A minute later when the JATO bottles burned out and dropped off the plane started back down and hung in the air for a long time before gaining enough speed to rise to a safe elevation. The aircraft commander had asked every passenger to sit backwards against the forward bulkhead in case we could not make it without going back down. This was the effect of taking off from a runway at high elevation.

  3. Brad Loomis says:

    We’ll need to retrofit and equip new aircraft with variable camber wings to increase lift during takeoff and change camber at different altitudes for efficiency. Also converting engines to electric as we move towards renewables would be beneficial long term.

  4. James Randall says:

    The absolutely garbage “science” of “climate change” has been debunked by the majority of actual Scientists. Only by “modifying” (i.e., changing) actual temperature data from the 1930’s through 1960’s to COOL the hot periods was IPCC able to “show” a warming trend.

    The power to weight ratio of an electric motor and associated batteries is not practical for getting an aircraft off of the runway — or safely landing it. The added weight of variable camber would be extremely difficult to offset with lift, and the added points of fatigue and potential failure are worrisome from a safety standpoint.

  5. Doug Cline says:

    I am surprised that the thrust versus ambient (T1) engine inlet temperature is not being included in considering the effects of higher ambient temperatures. For most jet engines as the temperature falls, the horsepower increases and is often limited so that at -40 no damage occurs. As the nominal ratings are often done at ISO conditions there is often scant information about what happens as the T1 temperature increases. For a typical ground level gas turbine the de-rating is in the order of -0.4% of power for each degree F above 59’F increasing to -0.8% above 85’F. There is also a reduction of available power related to elevation of the airport. Again typical numbers are in the region of -3.3% power for every 1000 ft of elevation. Good luck Mexico City!

  6. Cliff Meyers says:

    The practical impact of Global Warming is making the Denier comments irrelevant. Any system or component designed to any environment driven by temperature is being redesigned to account for Global Warming effects (such as increased turbulence).

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