In this paper, we have studied the flow of incompressible fluids in a straight square duct through the porous medium. The couple stress fluid model and Jeffrey fluid model are considered separately to study the flow properties. The governing partial differential equations have been solved numerically using finite difference method in each case. In both the cases, the variation of different flow parameters on the fluid velocity is illustrated graphically and the numerical results for the volume flow rate have been presented through tables. It is observed that, the velocity and volume flow rate decrease with an increase in couple stress parameter and porosity parameter, while the velocity and volume flow rate increase with an increase in Jeffrey parameter and pressure gradient.
This paper proposes a model to yield power from the low-power sources like microbial fuel cell (MFC). The structure of the MFC with a suitable energy storage unit is proposed and discussed in detail. The prototype of the MFC model with the charge pump (switched-capacitor) circuit is implemented and tested for an output voltage of 5[Formula: see text]V. Additionally, a novel high-step-up converter is suggested for the low-power applications. It employs a passive switched-inductor–capacitor cell (PSLC), which makes the switching of the LC network simple. This high-gain converter is derived by replacing the diode in the primary switched inductor cell with a capacitor. Compared to several topologies with similar voltage conversion ratio in the literature, the derived converter can achieve high voltage gain with the lesser component count. This study directs to propose a compact and lightweight DC–DC converter. Since the suggested topology is for low-power applications, a 5-W prototype is tested. The implemented setup is most appropriate for microbial fuel cell application, which is closely related to environmental stewardship.
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