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排序方式: 共有825条查询结果,搜索用时 15 毫秒
61.
62.
Andrea Gruber Prashant S. Salimath Jacqueline H. Chen 《International Journal of Hydrogen Energy》2014
Direct numerical simulations are performed to investigate the transient processes of laminar flame–wall interaction and quenching near a porous, permeable wall and compared against a reference case of a non-porous impermeable wall. A boundary condition formulation that models species (hydrogen in this case) transport through a permeable wall, driven by the fuel species partial pressure difference between the feed and the permeate side of a selective membrane, has been implemented in a high-order finite difference direct numerical simulation code for reactive flows (S3D) by Chen et al. (2009) [1]. The present results are obtained for lean, stoichiometric and rich initial mixture conditions on the permeate side of the permeable wall and indicate that the characteristic parameters of the flame–wall interaction (wall heat flux, quenching distance) are affected to a large extent by the presence of the membrane hydrogen flux. Concurrently, the hydrogen flux through the membrane is also strongly affected by the presence of the flame during the transient flame–wall interaction process, finally resulting in a strong feedback mechanism between the membrane hydrogen flux and the flame that greatly increases boundary layer flashback speeds at fuel lean conditions. 相似文献
63.
Metal injection moulding (MIM) is an established process for high volume production of complex shaped metallic parts using commercially available feedstocks. The characteristics of parts after moulding, debinding, and sintering cannot be simply predictable from raw materials because the properties get altered with the process parameters and the corresponding levels of porosity during processing steps. In this study, physical properties, microstructure, and mechanical properties of the MIM parts have been characterised to understand the evolution of strength during various steps in MIM processing. Feedstocks with different binder loading show a considerable difference in physical as well as mechanical characteristics. During sintering of parts which have solid loading of grinding sludge, simultaneous in situ reduction and densification takes place, whereas only densification occurs in carbonyl iron parts. It is, therefore, possible to make complex shaped parts of different levels of porosity from downgraded shop floor metallic waste. 相似文献
64.
Prashant S. Salimath Ivar S. Ertesvåg 《International Journal of Hydrogen Energy》2021,46(52):26616-26630
Premixed H2-air flames are studied in a one-dimensional wall-bounded configuration. The laminar flame propagates towards and quenches at a wall that is either solid or permeable. Entropy generation by each of 19 elementary reactions is evaluated. Their total contribution remains the most important up to the quenching instance. Close to quenching, the conduction entropy generation grows considerable. Mass diffusion has a modest contribution, which decreases towards quenching. Viscous forces are negligible as a source of entropy. Effects of unburnt-mixture temperature and fuel-air ratio are investigated, and also dilution with nitrogen (inert) and water vapour. The diffusive entropy flux changed direction away from the permeating wall compared that of the solid wall. A major finding is that fuel permeation through the wall tends to decrease the entropy generation per unit of converted fuel, in particular for initially lean mixtures. 相似文献
65.
66.
Pahlavan Kaveh Krishnamurthy Prashant 《International Journal of Wireless Information Networks》2021,28(1):3-19
International Journal of Wireless Information Networks - The IEEE 802.11 standard for wireless local area networking (WLAN), commercially known as Wi-Fi, has become a necessity in our day-to-day... 相似文献
67.
Integration – supporting multiple application classes with heterogeneous performance requirements – is an emerging trend
in networks, file systems, and operating systems. We evaluate two architectural alternatives – partitioned and integrated
– for designing next-generation file systems. Whereas a partitioned server employs a separate file system for each application
class, an integrated file server multiplexes its resources among all application classes; we evaluate the performance of the
two architectures with respect to sharing of disk bandwidth among the application classes. We show that although the problem
of sharing disk bandwidth in integrated file systems is conceptually similar to that of sharing network link bandwidth in
integrated services networks, the arguments that demonstrate the superiority of integrated services networks over separate
networks are not applicable to file systems. Furthermore, we show that: an integrated server outperforms the partitioned server
in a large operating region and has slightly worse performance in the remaining region; the capacity of an integrated server
is larger than that of the partitioned server; and an integrated server outperforms the partitioned server by a factor of
up to 6 in the presence of bursty workloads. 相似文献
68.
A. Venkataraman Vijay A. Hiremath S. K. Date S. D. Kulkarni 《Bulletin of Materials Science》2001,24(6):617-621
A new combustion route for the synthesis of γ-Fe
2
O
3
is reported by employing purified a-Fe
2
O
3
as a precursor in the present investigation. This synthesis which is similar to a self propagation combustion reaction, involves
fewer steps, a shorter overall processing time, is a low energy reaction without the need of any explosives, and also the
reaction is completed in a single step yielding magnetic iron oxide i.e. γ-Fe
2
O
3
.The as synthesized γ-Fe
2
O
3
is characterized employing thermal, XRD, SEM, magnetic hysteresis, and density measurements. The effect of ball-milling on
magnetic properties is also presented. 相似文献
69.
Late DJ Date KS More MA Misra P Singh BN Kukreja LM Dharmadhikari CV Joag DS 《Nanotechnology》2008,19(26):265605
Nanocrystalline lanthanum hexaboride (LaB(6)) films have been deposited on molybdenum foil by the pulsed laser deposition (PLD) technique. The as-deposited films were characterized by x-ray diffraction (XRD), scanning electron microscopy (SEM) and atomic force microscopy (AFM). The XRD pattern shows the cubic crystallinity of the LaB(6) film. The AFM studies reveal that the conical shaped LaB(6) nanostructures have height 60?nm, base 800?nm, and a typical radius of curvature ~20?nm. A comparison of force and in situ current imaging AFM studies reveals that current contrast does not originate from the surface topography of the LaB(6) film. Field emission studies have been performed in the planar diode configuration. A current density of 4.4 × 10(-2)?A?cm(-2) is drawn from the actual emitting area. The Fowler-Nordheim plot is found to be linear, in accordance with the quantum mechanical tunneling phenomenon. The field enhancement factor is estimated to be 3585, indicating that the field emission is from LaB(6) nanocrystallites present on the emitter surface, as confirmed by the AFM. The emission current-time plots show current stability to the extent of 5% fluctuation about the average current over a period of 3?h. 相似文献
70.
Thermal history of droplets associated with gas atomization of melt has been investigated. A mathematical model, based on
classical theory of heterogeneous nucleation and volume separation of nucleants among droplets size distribution, is described
to predict undercooling of droplets. Newtonian heat flow condition coupled with velocity dependent heat transfer coefficient
is used to obtain cooling rate before and after nucleation of droplets. The results indicate that temperature profile of droplets
in the spray during recalescence, segregated and eutectic solidification regimes is dependent on their size and related undercooling.
The interface temperature during solidification of undercooled droplets rapidly approaches the liquidus temperature of the
alloy with a subsequent decrease in solid-liquid interface velocity. A comparison in cooling rates of atomized powder particles
estimated from secondary dendrite arm spacing measurements are observed to be closer to those predicted from the model during
segregated solidification regime of large size droplets. 相似文献