Diesel fuel processor for hydrogen production for 5kW fuel cell application

2007 ◽  
Vol 32 (10-11) ◽  
pp. 1429-1436 ◽  
Author(s):  
D SOPENA ◽  
A MELGAR ◽  
Y BRICENO ◽  
R NAVARRO ◽  
M ALVAREZGALVAN ◽  
...  
2017 ◽  
Vol 355 ◽  
pp. 44-52 ◽  
Author(s):  
Remzi Can Samsun ◽  
Daniel Krekel ◽  
Joachim Pasel ◽  
Matthias Prawitz ◽  
Ralf Peters ◽  
...  

2021 ◽  
Vol 47 ◽  
pp. 101413
Author(s):  
Peyman Maghsoudi ◽  
Amirreza Kaabinejadian ◽  
Mohammad Mehdi Homayounpour ◽  
Mehdi Bidabadi

2005 ◽  
Vol 145 (2) ◽  
pp. 702-706 ◽  
Author(s):  
Gu-Gon Park ◽  
Sung-Dae Yim ◽  
Young-Gi Yoon ◽  
Won-Yong Lee ◽  
Chang-Soo Kim ◽  
...  

2013 ◽  
Vol 415 ◽  
pp. 651-657 ◽  
Author(s):  
Chananchai Wutthithanyawat ◽  
Nawadee Srisiriwat

As increasing hydrogen demand for fuel cell application is expected in the near future, the efficient production of hydrogen is vital enabling technology for commercialization of fuel cell for residences and automobiles. Among different technologies of hydrogen production, autothermal reforming is considered to be thermally self-sustaining that the external heat source is not required. In this work, a steady state modeling of autothermal reforming of ethanol for hydrogen production has been performed. Because the operating condition at adiabatic temperature is designed for autothermal reformer, the estimated function of adiabatic temperature as function of steam-to-carbon (S:C) and air-to-carbon (A:C) molar ratios can be determined. At autothermal condition, the effect of S:C and A:C ratios on the product distributions of hydrogen rich stream is thermodynamically investigated. At fixed reactor pressure of 1 bar and preheat temperature of 200 °C, the favorable operating condition for the autothermal reforming of ethanol is found to be a S:C ratio of 2.0 and an A:C ratio of 1.75 at adiabatic temperature of 639 °C.


2005 ◽  
Vol 110 (1-2) ◽  
pp. 108-113 ◽  
Author(s):  
Gu-Gon Park ◽  
Sung-Dae Yim ◽  
Young-Gi Yoon ◽  
Chang-Soo Kim ◽  
Dong-Joo Seo ◽  
...  

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