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GoAir to save fuel with EGTS Electric Taxiing System

ETW StaffMumbai

Honeywell and Safran have signed a Memorandum of Understanding (MoU) with GoAir, India’s low-cost carriers, to support the advancement of EGTS electric taxiing system, a technology that can save airlines up to four per cent block fuel consumption per flight.

EGTS uses electric motors on the main landing gear to enable the aircraft to push back autonomously and taxi without using its main engines to improve operational efficiency and reduce emissions.

Giorgio De Roni, CEO, GoAir, said, “At GoAir, we are constantly looking for innovative ways to lower costs for our passengers while improving their flying experience at the same time. This agreement allows us to actively participate in the system’s development- a technology that we believe has the potential to not only save fuel and reduce costs, but also improve aircraft turnaround times and lower noise and emissions in the airport environment.”

Under the agreement, GoAir will provide data on its taxiing operations to Honeywell and Safran to assist in maturing the system and to define the precise fuel and other operational benefits it would see by using the technology across its fleets. The agreement will also see GoAir assist in establishing the airline standard operational procedures for aircraft equipped with the system.

Brian Wenig, vice president, EGTS Programme, Honeywell Aerospace, said, “Where EGTS comes into its own is in supporting high-volume, fast-turnaround, short-haul movements, where aircraft spend a large proportion of the day on tarmac taxiing. As the only electric taxiing system to receive support from a major OEM to date, EGTS represents an exciting, cost-effective technology for airlines to lower their fuel burn and save money.”

Olivier Savin, vice president EGTS Programme, Safran, said, “EGTS has a significant benefit over other systems in that it has a main-gear-based electric taxiing design. Consequently, EGTS is the only onboard system currently in development that can generate enough traction to mitigate the use of engines during taxiing in all weather conditions and at all airports.”