论文信息 - Multifunctional fuel cell system in an aircraft environment: An investigation focusing on fuel tank inerting and water generation

Multifunctional fuel cell system in an aircraft environment: An investigation focusing on fuel tank inerting and water generation

Implementing a proton exchange membrane fuel cell (PEMFC) into an aircraft environment is a challenging task. In order for aircraft manufacturers and airlines to realize the ecological and economic benefits of this technology, it is necessary to make use of the multiple functions that a fuel cell system can provide. In addition to the main product of electrical energy, the fuel cell is capable of delivering further products, which are useful in an aircraft environment. The waste products – water vapor, heat and oxygen-depleted air (ODA) – at the cathode exhaust are valuable for use on board a commercial airplane. This paper describes the multifunctional approach, points out the advantages of the operation strategy as well as describes a prototype system for the multifunctional use of a PEM fuel cell on board a commercial airplane. The stable operation of the aforementioned system was successfully demonstrated in various tests. The emphasis of the work in question is on water and ODA generation/conditioning.

[1] J. Penner,et al. Aviation and the Global Atmosphere , 1999 .

[2] James Larminie,et al. Fuel Cell Systems Explained , 2000 .

[3] Josef Kallo,et al. Fuel cells for civil aircraft application: On-board production of power, water and inert gas , 2012 .

[4] Robert W. Besant,et al. Heat and mass transfer during silica gel–moisture interactions , 2005 .

[5] D. Daggett,et al. Hybrid fuel cell power in aircraft , 2008, IEEE Industry Applications Magazine.

[6] M. L. Jackson,et al. The Colloid Chemistry of Silica and Silicates , 1955 .

[7] Robert Sausen,et al. Aviation and the Global Atmosphere - Summary for Policymakers , 1999 .

[8] A. A. Akhil,et al. Electrical analysis of Proton Exchange Membrane fuel cells for electrical power generation on-board commercial airplanes , 2012, 2012 IEEE Transportation Electrification Conference and Expo (ITEC).

[9] Josef Kallo,et al. Improving the environmental impact of civil aircraft by fuel cell technology: concepts and technological progress , 2010 .

[10] Hongxia Xi,et al. Effects of pore sizes of porous silica gels on desorption activation energy of water vapour , 2007 .

[11] José J. Costa,et al. On the behaviour of hygroscopic wheels: Part II – rotor performance , 2007 .