- Advances LiDAR technology for improved contrail
analysis
- Provides insights for development of new aircraft
engines
- Industry actively collaborating to understand contrail
science with aim to reduce emissions
CINCINNATI, Nov. 15,
2024 /PRNewswire/ -- GE Aerospace (NYSE: GE) and NASA
are partnering on a series of unique flight tests to help further
the aviation industry's understanding of contrails, using new test
methods and technologies.
Contrails are clouds made of ice particles, which can be created
when airplanes fly through cold, humid air. Persistent contrails
are estimated to have a warming climate impact. Flight tests will
support industry research efforts to better understand contrail
science and enable new technology development that can reduce
non-CO2 emissions.
Flights for the Contrail Optical Depth Experiment (CODEX) will
be conducted the week of November 18
from Virginia. NASA Langley
Research Center's G-III aircraft will follow GE Aerospace's Flying
Test Bed in the sky and scan the aircraft wake with Light Detection
and Ranging (LiDAR) technology. This will advance the use of LiDAR
by NASA to generate three-dimensional imaging of contrails to
better characterize how contrails form and how they behave over
time.
For GE Aerospace, this represents new operating methods for its
747 Flying Test Bed, expanding capabilities ahead of flight tests
planned this decade to evaluate performance of new commercial
engine technologies. Open Fan, advanced combustion designs, and
other propulsion systems are being developed through CFM
International's Revolutionary Innovation for Sustainable Engines
(RISE)* program.
"GE Aerospace is proud to once again team up with NASA to be at
the forefront of innovation for the future of more sustainable
flight," said Arjan Hegeman, general
manager of future of flight technology for GE Aerospace.
"Understanding how contrails act in-flight with the latest
detection technology is how we move innovation forward. These tests
will provide critical insight to advance next generation aircraft
engine technologies for a step change in efficiency and
emissions."
GE Aerospace and NASA have partnered for more than 50 years to
accelerate the introduction of new innovations to the aviation
industry.
"NASA is advancing the scientific understanding of contrails to
improve our confidence in future operational contrail management
decisions that consider overall climate impact and economic
trades," said Dr. Rich Wahls,
manager of NASA's Sustainable Flight National Partnership. "We are
thrilled to once again work with our collaborator, GE Aerospace, on
this first-of-its-kind flight experiment."
Chief technology officers across the aviation industry called
for more government research programs at the Farnborough
International Airshow in July to enhance understanding of aviation
non-CO2 effects, such as contrails, nitrogen oxides
(NOx), sulfur, aerosols, and soot.
Weather prediction
NASA, German Aerospace Center (DLR), and SATAVIA will
collaborate on atmospheric forecasting to identify conditions
favorable for studying contrail formation.
DLR will help predict the altitude and dimensions of contrail
forming regions and their evolution, required to guide the aircraft
into fast-moving contrail regions. After the flight tests, the
contrail model can be validated with LiDAR observations to advance
contrail prediction capabilities.
Additionally, flight test learnings will help SATAVIA – which
offers a contrail forecasting and management service – validate and
improve its numerical weather prediction capability used to
forecast contrail formation in ice super saturated regions (ISSR).
Aerospace Carbon Solutions, a GE Aerospace business, acquired
SATAVIA earlier this year.
CFM RISE program
Unveiled in 2021, the CFM RISE program is one of the aviation
industry's most comprehensive technology demonstration programs
showing real progress with more than 250 tests completed.
Through the RISE program, CFM is advancing a suite of pioneering
technologies, including advanced engine architectures like Open
Fan, compact core, and hybrid electric systems to be compatible
with 100% Sustainable Aviation Fuel (SAF). The CFM RISE program
targets more than 20% better fuel efficiency with 20% lower
CO2 emissions compared to the most efficient commercial
engines in service today. Technologies are also being validated to
meet the most stringent non-CO2 and noise emission
requirements.
Innovation legacy
In addition to the upcoming contrails flight tests, GE Aerospace
and NASA collaborations include hybrid electric engine development,
new compact core compressor, combustor, and high-pressure
turbine jet engine technologies, and fuels emissions testing.
GE Aerospace plans to hire more than 900 engineers in 2024,
reflecting its continued focus on innovation to support current
aircraft engine programs and develop new technologies for the
future of flight. View job openings at invent.ge/engineering.
*RISE is a registered trademark of CFM International, a 50-50
joint company between GE Aerospace and Safran Aircraft
Engines.
ABOUT GE AEROSPACE
GE Aerospace (NYSE: GE) is a global aerospace propulsion,
services, and systems leader with an installed base of
approximately 44,000 commercial and 26,000 military aircraft
engines. With a global team of 52,000 employees building on more
than a century of innovation and learning, GE Aerospace is
committed to inventing the future of flight, lifting people up, and
bringing them home safely. Learn more about how GE Aerospace and
its partners are defining flight for today, tomorrow and the future
at www.geaerospace.com.
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SOURCE GE Aerospace