Title :
A novel self-starting MEMS-heat engine for thermal energy harvesting
Author :
Huesgen, Till ; Woias, Peter
Author_Institution :
IMTEK, Univ. of Freiburg, Freiburg, Germany
Abstract :
This paper describes a novel micro heat engine for thermal energy harvesting. The engine comprises a working fluid in a sealed cavity, that is bound by a bistable membrane. The engine chamber performs a self-controlled reciprocating motion between a heat source and heat sink. Two types of working fluid are investigated: pure gas and a liquid-gas phase-change medium. A theoretical mechanical output power of is 0.89 ¿W is calculated at a temperature difference of 37°C for the phase change type engine. Measurements at 37°C temperature difference indicate an operation frequency of 0.8 Hz for the phase change engine, compared to 0.16 Hz for the pure gas engine. A maximum of 1.6 Hz is found for the air-filled engine at 100°C temperature difference.
Keywords :
heat engines; micromechanical devices; small electric machines; MEMS heat engine; air-filled engine; bistable membrane; engine chamber; frequency 0.16 Hz; frequency 0.8 Hz; heat sink; heat source; liquid-gas phase change medium; micro heat engine; microlectromechanical system; phase change type engine; power 0.89 muW; pure gas engine; sealed cavity; self-controlled reciprocating motion; temperature 100 C; temperature 37 C; thermal energy harvesting; working fluid; Biomembranes; Frequency measurement; Heat engines; Heat sinks; Heat transfer; Heating; Phase measurement; Power generation; Temperature measurement; Thermodynamics;
Conference_Titel :
Micro Electro Mechanical Systems (MEMS), 2010 IEEE 23rd International Conference on
Conference_Location :
Wanchai, Hong Kong
Print_ISBN :
978-1-4244-5761-8
Electronic_ISBN :
1084-6999
DOI :
10.1109/MEMSYS.2010.5442422
