Gas turbines have been in use in railways for decades, especially outside Europe. In recent times, with pollution standards becoming tougher and modern micro gas turbines arriving on the market, gas turbines have returned to discussion as an alternative to diesel traction.
Technology field:Innovative traction concepts and energy sources
General information
General criteria
Environmental criteria
Impacts on energy efficiency:
Energy efficiency potential for single vehicle: not applicable
Energy efficiency potential throughout fleet: not applicable
Turbomeca claims that since the 60s when first gas turbine driven rail vehicles were developed, fuel economy has improved from 420 g/kWh to 250 g/kWh. In long-term perspective, 210 g/kWh seems possible on the basis of modern recuperator technology. Modern diesel engines reach values of around 200 g/kWh.
Modern gas turbines may reach efficiencies of up to 28 %.
On board energy storage could level out demand variations of traction motors to ensure that gas turbine always operates at maximum power (where efficiency is best).
According to experts, gas turbines will at best reach energy efficiency of diesel technology but hardly beat it.
Other environmental impacts: positive
Emission
Turbomeca claims that gas turbines running on liquid diesel fuel meet EURO V
requirements. New combustor allows very low levels of NOx, much lower than
modern diesel combustion engines.