The DLR site in Oberpfaffenhofen

The climate impact of aviation

DLR/NASA research flights over northern Germany

Gemeinsame Forschungsflüge über Deutschland

24 January 2018

Autoplay
Show Info
Hide Info
Information
Close
Fullscreen
Normal
back
next
{{index}}/{{count}}
Tip:
Use <Escape>, to leave fullscreen.
  • Gemeinsame Forschungsflüge über Deutschland
    joint research flights over northern Germany

    Close behind the DLR A320 ATRA (Advanced Technology Research Aircraft), the DC-8 NASA ‘flying laboratory’ flies in the exhaust stream of the Airbus. On board, scientists measure the composition of the exhaust gas plume and investigate the effects of biofuels such as HEFA on the formation of soot particles and ice crystals.

  • Die DC%2d8 der NASA im Hangar
    NASA DC-8 in the hangar

    The NASA ‘Airborne Science Laboratory’ is being equipped with the most advanced measuring instruments in the hangar. The largest hangar at Ramstein Air Base could otherwise accommodate a C-5 Galaxy or a B747 and will serve as the headquarters during the campaign.

  • Betankung mit alternativen Treibstoffen
    ATRA will be fueled with a mix of conventional aircraft fuel and biofuel

    DLR's Airbus A320 ATRA will be fueled with a mix of conventional aircraft fuel and biofuel during the NDMAX / ECLIF 2 campaign.

  • Bodentests am Morgen
    Researchers measure the composition of the exhaust gases

    Before the test flights, during which the NASA DC-8 will follow the DLR ATRA in its exhaust plume, researchers measure the composition of the exhaust gases on the ground.

  • Emissionen im Fokus
    Study of emissions

    In the tanks of the DLR ATRA, conventional aviation fuel is mixed with biofuels to investigate the effect of alternative fuels on the formation of water crystals and carbon dioxide in the exhaust gases.

  • Three weeks of research flights from Ramstein Air Base in Rhineland-Palatinate
  • NASA DC-8 and DLR A320 ATRA fly together
  • Objective – study of particle emissions from alternative fuels and their influence on cloud formation through contrails and their climate impact
  • Focus: aeronautics, climate research, alternative fuels

The joint research flights being conducted by the German Aerospace Center (Deutsches Zentrum für Luft- und Raumfahrt; DLR) and the US National Aeronautics and Space Administration (NASA) are now half complete. Today, on 24 January 2018, the fourth of eight planned joint flights took off from Ramstein Air Basein Rhineland-Palatinate, Germany. The measurement flights are predominantly taking place in restricted airspace over Mecklenburg-Vorpommern. "DLR and NASA have combined their research resources, aircraft and measuring instruments to study the potential of alternative fuels for environment-friendly aviation and their impact on the atmosphere in more detail," says the DLR Executive Board Member responsible for aeronautics research, Rolf Henke. The international team of researchers conducted previous joint research flights on 17, 19 and 23 January.

"We have successfully collected emission and contrail data for the DLR A320 ATRA, which initially used conventional Jet A-1 kerosene fuel and then switched to a blend of kerosene and biofuel, flying under contrail-forming and non-contrail-forming conditions," says Hans Schlager of the DLR Institute of Atmospheric Physics. "In addition, we managed to collect measurement data relating to the properties of cirrus clouds on the transit flight from California to Germany," adds NASA scientist Bruce Anderson.

Climate impact research issue

One key question for the research flights, which will continue until early February, is whether it can be shown that the lower soot emissions produced by the use of alternative aircraft fuels has an impact on the ice particles in contrails, thus resulting in a lower warming effect on the climate due to long-lasting contrails. “We are also interested in finding out whether, with a targeted fuel design, a markedly more economical addition of 30 per cent biofuel will generate a similarly low level of soot emissions as a 50 per cent mixture with conventional Jet A-1 kerosene," explains Patrick Le Clercq of the DLR Institute of Combustion Technology. "We are building on the results of the ECLIF I campaign, in which two DLR aircraft, the A320 ATRA and the Falcon, were deployed in 2015 and also assisted NASA with the ground measurements."

For the ND-MAX / ECLIF 2 (NASA / DLR-Multidisciplinary Airborne eXperiments / Emission and CLimate Impact of Alternative Fuel) measurement flights, DLR’s A320 ATRA and NASA's 'flying laboratory' take off with a total of 14 measuring instruments on board, of which around half have been provided by DLR. DLR’s A320 flies in front, using an alternative fuel, while the NASA DC-8 flies a few kilometres behind and 'sniffs' the exhaust. The emissions generated by two mixtures of alternative fuels are measured at different altitudes and flight speeds, along with the resulting contrails and contrail cirrus clouds.

Flight test sequence

Each joint research flight takes off in the morning from Ramstein Air Base. "The NASA DC-8 and DLR Airbus fly some distance into an airspace reserved for flight tests," explains DLR test pilot Stefan Seydel. "So far, this has been an airspace over Mecklenburg-Vorpommern." Once there, the two aircraft fly up to 15 circuits per flight, following one another. "After a straight flight path, where we fly in the contrails of the A320, we perform a 180-degree turn, then we dive with the DC-8 onto another straight path, flying in the exhaust streams and contrails, before the next 180-degree turn," says NASA test pilot Wayne Ringelberg, describing the exercise. "We generally fly these measurement circuits for four to five hours before embarking on the return flight to Ramstein."

The NASA DC-8 lands in Ramstein shortly after the DLR A320. Final exhaust gas measurements are taken on the taxiway, before the aircraft taxi to the hangar. In addition, the researchers carry out separate static tests in which the exhaust gases of the DLR A320 ATRA are studied using ground-based measuring instruments. The researchers expect to have the results of the studies in the next few months.

Strong partnership

The cooperation between DLR and NASA has a long-standing tradition. Having been active in the field of spaceflight for a long time, DLR has been able to establish very good relationships with NASA in aeronautics in recent years. "DLR and NASA co-founded IFAR, a forum that connects 26 aeronautics research centres worldwide. In addition, projects with NASA have been initiated via existing bilateral cooperation agreements between individual DLR institutes," says Henke. "One example is the DLR-NASA Design Challenge, a competition that runs simultaneously and with the same specifications at German and US universities and is currently entering its second round." Both partners are particularly involved in aviation research, in joint research projects in the areas of aeronautics, air traffic management and low-noise and low-emission flying.

 

ND-MAX/ECLIF 2 Flugversuche

Last modified:
24/01/2018 17:29:15

Contacts

 

Falk Dambowsky
German Aerospace Centre (DLR)

Media Relations, Aeronautics

Tel.: +49 2203 601-3959
Dr Patrick Le Clercq
German Aerospace Center (DLR)

DLR Institute of Combustion Technology

Tel.: +49 711 6862-441

Fax: +49 711 6862-578
Kate Squires
National Aeronautics and Space Administration (NASA)

Armstrong Flight Research Center

Tel.: +1 661 276-2020
Stefan Seydel
German Aerospace Center (DLR)

Head of Department Flight Operations, Flight Facility Braunschweig

Tel.: +49 531 295-2240
Sandra Archer
86th Airlift Wing

Public Affairs Office Ramstein Air Base

Tel.: +49 6371 47-2458
Dr Hans Schlager
German Aerospace Center (DLR)

Institute of Atmospheric Physics

Tel.: +49 8153 28-2510

Fax: +49 8153 28-1841