H2Fly Achieves HEAVEN’s Goal

Dean Sigler Announcements, Electric Powerplants, Fuel Cells, GFC, hydrogen, Hydrogen Fuel, Sustainable Aviation Leave a Comment

H2Fly has an historic aircraft in its fleet, the HY4, as part of the HEAVEN program to, “Demonstrate the use of liquid, cryogenic hydrogen in aircraft.”  Originally the G4, the craft won the NASA Green Flight Challenge in 2011, posting a passenger mile per gallon efficiency of 403.5 – equivalent to driving your loaded Prius from San Francisco to Los Angeles on under four gallons of fuel.  Resurrected as the HY4 and flown on gaseous hydrogen, the craft has been reconfigured to fly on liquid hydrogen, expanding its range significantly. According to the HEAVEN program, “The hydrogen-electric ‘HY4’ demonstrator aircraft took off from Maribor, Slovenia, and saw safe and efficient operation throughout multiple flight tests.”  Announced September 7, these were the first piloted flights of a liquid hydrogen fueled aircraft.  Four flights, including one that lasted over three hours, “Lay the foundation for long-range, emissions-free flight, with liquid hydrogen doubling the range of the HY4 aircraft to 1,500[kilometers], compared to …

MAHEPA and HY4 Go High

Dean Sigler Announcements, Batteries, Electric Powerplants, Fuel Cells, GFC, Hybrid Aircraft, Hydrogen Fuel, Sustainable Aviation Leave a Comment

MAHEPA (Modular Aproach to Hybrid-Electric Propulsion Architecture) is a European Union project to build emission-free aircraft.  A public flight of Pipistrel’s HY4 hydrogen-powered, four-seat aircraft was the latest demonstration of the group’s progress. Challenging Objectives Overall, MAHEPA hopes to accomplish five objectives: Advancing the fuel-driven serial hybrid-electric Powertrain which uses a lightweight internal combustion engine (ICE), capable of running multiple fuels as the power generation module. Advancing the reliability of zero-emission serial hybrid-electric powertrain which uses a Proton Exchange Membrane (PEM) Hydrogen Fuel Cell (FC) as the power generation module. Advancing new airborne qualified, lightweight, high-power density components such as a 200 kW+ electric motor, a 100 kW+ generator and improved power electronics using Silicon Carbide (SiC) technology to increase efficiency of power transmission due to decreased switching losses. Developing “common building blocks” solutions also for different aircraft configurations, enabling the proliferation of powertrain modules between various aircraft. Gathering, analyzing and comparing in-flight performance and emission data in order to …