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- Devi Prasad Das, Arunabha Kundu,, +5 authors V. Rajaiya
- 1992
- Arunabha Kundu,, Jae Hyuk Jang, +5 authors Youngseok Oh
- 2007
The importance of micro-fuel cell has been increased with the demand for uninterrupted power source in today's power hungry portable electronics. Currently, there is aggressive research going on to… (More)
Abstract An experimental study has been conducted in axisymmetric, co-flowing triple flames with different equivalence ratios of the inner and outer reactant streams ( 2 ϕ in 3 and 0 ⩽ ϕ out 0.7 ).… (More)
A model for external wetting efficiency of the catalyst in trickle-bed reactors was developed based on 1-D force-balance equations incorporating drag forces in a three-phase system. The gas–liquid… (More)
The residence time distribution (RTD) of a bench-scale multiphase reactor has been investigated in the present study using air as a gaseous phase and water as a liquid phase. Two different sizes (1.1… (More)
Abstract In recent years, carbon nanotubes (CNTs) have been increasingly considered as an advanced metal catalyst support for proton exchange membrane fuel cells (PEMFCs), owing to their outstanding… (More)
Abstract Catalyst coating in micro-channel reactor for steam reforming of methanol (SRM) is advantageous compared to micro-packed reactor as one part of fuel processor in the application of fuel cell… (More)
- Rajender R. Kondakindi, Arunabha Kundu,, +4 authors P. J. Schurer
- 2010
Abstract In this study, LaFeO 3 -based perovskites prepared by the glycine-nitrate process (GNP) were investigated as potential candidates for diesel surrogate, dodecane, reforming to generate… (More)
Liquid distribution plays an important role in determining the reactor performance in a trickle-bed reactor. Radial liquid distribution was studied in a trickle-bed reactor with five different shapes… (More)
Aluminium appears to be a promising material for on-board hydrogen generation in fuel cell applications given the comparatively large amount of hydrogen produced per gram of aluminium in a safe… (More)