Litcius/Paper detail

Post-positioned gas spring enables ultra-high output power of hybrid thermoacoustic electric generators

Yuanhang Chen, Yuanhang Chen, Guoyao Yu, Yanyan Chen, Yanyan Chen, Shunmin Zhu, Jing Luo, Yanlei Sun, Ercang Luo

2024Cell Reports Physical Science10 citationsDOIOpen Access PDF

Abstract

High-capacity hybrid thermoacoustic electric generators (HTAEGs) are ideal in different small- and micro-scale energy systems, especially in space nuclear power systems. In this work, an HTAEG with a post-positioned gas spring is proposed. To demonstrate the superiority of the gas-spring-post-positioned design on high-capacity HTAEGs, an HTAEG prototype is modeled, built, and tested from the perspective of thermoacoustics accordingly. Experimental results demonstrate an output electric power of 15.0 kW. Furthermore, it could achieve the highest efficiency of 39.2% with an output electric power of 11.1 kW. Given that a 15-kW power output is an ultra-high level on a single-piston HTAEG of this type to date, and the achieved efficiency on the prototype is also encouraging, this work marks an important milestone in the development of high-capacity HTAEGs. It also demonstrates that the gas-spring-post-positioned design has significant advantages and enormous potential for application.

Topics & Concepts

ThermoacousticsElectric powerThermoacoustic heat enginePower (physics)Work (physics)Spring (device)Electricity generationElectrical engineeringMechanical engineeringEngineeringAcousticsPhysicsHeat exchangerQuantum mechanicsAdvanced Thermodynamic Systems and EnginesAdvanced Thermodynamics and Statistical MechanicsSpacecraft and Cryogenic Technologies