1
Yongxian Zeng, Satish S Tamhankar, Kirk Walton Limbach, Sekharipuram V Krishnan: Hydrocarbon partial oxidation process. The BOC Group, Philip H Von Neida, Salvatore P Pace, November 7, 2000: US06143203 (32 worldwide citation)

Partial oxidation of hydrocarbons to produce hydrogen and carbon monoxide is carried out by a fluidized bed process which includes the steps of passing air through a perovskite-type ceramic mixed conductor in an adsorption zone at an elevated temperature, thereby at least partially saturating the mi ...


2
Rifat Alchalabi, Donald Prentice Satchell Jr, Sekharipuram V Krishnan: Enhanced heat transfer through controlled interaction of separate fuel-rich and fuel-lean flames in glass furnaces. The BOC Group, Joshua L Cohen, Salvatore P Pace, March 12, 2002: US06354110 (2 worldwide citation)

In an industrial furnace used to melt glass batch or glass melt least two oxy-fuel burners are employed in the roof or side-wall of the furnace. At least one oxy-fuel burner is operated with a fuel-rich mixture and at least one other oxy-fuel burner is operated with a fuel-lean mixture. The flames a ...


3
Satish S Tamhankar, Sekharipuram V Krishnan, Michael H Leison: Hydrogen production process. The BOC Group, Philip H Von Neida, June 9, 2009: US07544342

The present invention provides a process for producing hydrogen by passing a hydrocarbon-containing gas over a ceramic monolith at a temperature sufficient to produce hydrogen; and passing an oxygen-containing gas over the ceramic monolith at a temperature sufficient to react with the carbon on the ...


4

5
Satish S Tamhankar, Sekharipuram V Krishnan, Michael H Leison: Hydrogen production process. The Boc Group, March 2, 2006: US20060045844-A1

The present invention provides a process for producing hydrogen by passing a hydrocarbon-containing gas over a ceramic monolith at a temperature sufficient to produce hydrogen; and passing an oxygen-containing gas over the ceramic monolith at a temperature sufficient to react with the carbon on the ...