New Delhi, September, 2024.
GE Aerospace announced
today that its GEnx commercial aviation engine family achieved a milestone oftwo
million flight hours with South Asian airlines.The first GEnx was delivered in
the region in 2012 with 90GEnx engines now powering Air India, Vistara and
Biman Bangladesh flights.
“The
GEnx engine has been instrumental in supporting South Asia’ saviation growth. This milestone is a testament
to its engineering excellence and technology maturity,” said Mahendra
Nair, Group Vice President for Commercial Program at GE Aerospace, during a
visit to New Delhi.“We continue to
support our customers’ business goals, with our best technology and services
offerings.”
“We are proud of our
long relationships with the South Asian airlines,including most recentlyAir
India as it plansexpansion of operations with 20 new wide-body aircraft that
will be powered by 40 GEnx engines,” said Vikram Rai, South Asia Chief
Executive Officer, GE Aerospace.
“GE
Aerospace has been a trusted partner in our journey towards expanding our
wide-body operations, and the GEnx engine has consistently delivered in terms
of reliability, efficiency, and sustainability,” said Nipun Aggarwal, Chief
Commercial Officer, Air India. “As we continue to grow our fleet, we are
confident that the GEnx engine will play a critical role in helping us achieve
our operational goals.”
Reliable
&sustainable technology- As a preferred choice
for airlines worldwide, powering Boeing’s 787 Dreamliner and the 747-8, the GEnx
engine showcases a leap forward in propulsion technology. The engine’s superior
performance contributes to reduced operating costs and a lower carbon footprint,
aligning with the global aviation industry's sustainability goals by making it
15%more fuel-efficient and emitting up to 15% less CO2 than its predecessor,
the CF6 engine. The GEnx engine is a product of decades of operational
knowledge and experience, derived from the GE90 engine. With its innovative
twin-annular pre-swirl(TAPS) combustor, the engine significantly reduces
nitrogen oxide (NOx) emissions by up to 60% below current regulatory limits.
Researchers and
engineers at GE Aerospace’s technology centre in Bengaluru worked closely with regional customers and implemented various
performance improvement solutions and deployed various innovative on-wing
technologies like foam wash, advance blade inspection and operational
data-based insights to improve engine’s time-on-wing and reduce maintenance
burden.
In March 2023, the GEnx engines powered the first
wide-body aircraft on a long-haul route to India using Sustainable Aviation
Fuel (SAF). Vistara’s Boeing 787-9 Dreamliner flew from Charleston, South
Carolina, to New Delhi on a blend of 30% SAF with conventional jet fuel.
To further enhance the
engine's efficiency and sustainability, GE Aerospace introduced 360 Foam Wash,
a cutting-edge alternative to traditional water washing methods.This advanced
cleaning processhelps maintain optimal engine performance by removing dirt and
debris, improving fuel efficiency, and extending the time between maintenance
cycles. The 360 Foam Wash has already been implemented by seven airlines,
including Air India, Emirates, Etihad Airways, Japan Airlines, Qatar Airways,
Royal Jordanian, Saudi Arabian Airlines, and SkyWest. There have been thousands
of foam washes conducted in the field with customers, further driving down
operational costs and environmental impact.
Improving service quality
with AI- GE Aerospace continually monitors its GEnx commercial
engines in service and uses digital insights to help identify predictive
maintenance measures to enhance the quality of service. To support this effort,
the company uses advanced artificial intelligence (AI) and machine learning
(ML) driven models to increase the number of conditions that can be monitored
with even greater accuracy. GE
Aerospace’s AI-enabled Blade Inspection Tool (BIT) guides the selection of
Stage 1 and 2 High Pressure Turbine engine blade images in GEnx commercial
engine for technicians to inspect for faster, more accurate inspections. This
helps in obtaining consistent images, a key input to building predictive
models.