Title :
Analysis of non-minimum phase behavior of PEM fuel cell membrane humidification systems
Author :
Chen, Dongmei ; Peng, Huei
Abstract :
A model for the transient behavior of a membrane humidifier for PEM fuel cells is developed. This humidifier uses the exhaust fuel cell cooling water to humidify the dry inlet air. This model is based on thermodynamic principles and captures temperature, relative humidity and flow variables of the humidifier. Dynamic simulations show that the humidification system exhibits a non-minimum phase behavior with one zero located in the right half plane. The physical reason why such a non-minimum phase zero exists is explained. The effects of the humidifier design parameters on the non-minimum phase zero location are studied and discussed.
Keywords :
humidity; humidity control; proton exchange membrane fuel cells; thermodynamic properties; zero assignment; PEM fuel cell membrane humidification systems; PEM fuel cells; dry inlet air; exhaust fuel cell cooling water; membrane humidifier; nonminimum phase behavior; nonminimum phase zero; thermodynamic principles; Algorithm design and analysis; Biomembranes; Cooling; Fuel cells; Humidity control; Mathematics; Protons; Temperature; Thermodynamics; Water heating;
Conference_Titel :
American Control Conference, 2005. Proceedings of the 2005
Print_ISBN :
0-7803-9098-9
Electronic_ISBN :
0743-1619
DOI :
10.1109/ACC.2005.1470575
