Inspired by
Robert Stirling's 19th-century engine, Petach, along with Scott Backhaus, and Emanuel Tward, developed the thermoacoustic-Stirling heat engine (TASHE) that was first published in
Applied Physics Letters. He had previously published on thermoacoustics in space applications. TASHE uses intense sound waves to convert up to 18 percent of heat source energy into electricity for spacecraft, a significant improvement compared to prior thermoelectric generators, which converted about 7% of heat energy into electrical energy. This increased efficiency enhanced the power and capabilities of deep space probes, aligning with the goals of NASA's
Project Prometheus and missions like the
Jupiter Icy Moons Orbiter. TASHE employs sound waves produced by thermal differences to generate electricity. The system's core includes a regenerator composed of stainless-steel wire-mesh discs, through which
helium gas oscillates due to temperature differences created by a heat source and a
heat sink. This oscillation produces sound waves that drive a piston in a linear alternator, converting
acoustic energy into
electrical energy. This design features minimal moving parts, primarily the helium gas and an ambient temperature piston, contributing to the system's high reliability, crucial for long-duration space missions where maximizing power output from limited energy sources is essential. == Cryocoolers ==