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Figure 1. 6. Schematic of channels in a. IFF b. PFF c. single-channel serpentine (SSFF) and d. multi-channels serpentine flow field (MSFF) designs. Letter e represents a schematic of Cartesian coordinates directions in the channels. 1.3- Motivations of studying pressure distribution in RFBs A key element affecting the performance of RFBs is the FF design. The pressure loss in RFB cells with IFF are generally less than the ones with SFF for the same active area, as mentioned in Section 1.3. However, electrolytes are maldistributed in RFB cells with IFF; therefore, the electrolyte (hence, the reactants) are unevenly exposed to the electrode, resulting in unbalanced current density distribution. [50] Numerous studies have mentioned that improving the uniformity of the current density distribution enhances the electrochemical performance of RFBs. [49–52] Therefore, since flow distribution is one of the parameters affecting current density distribution, this parameter is important to improving RFBs with IFF. Electrolyte pressure gradients dictate the 10PDF Image | Analysis of Fluid Flow in Redox Flow Batteries
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