2021
DOI: 10.3389/fceng.2021.749058
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En Route to a Unified Model for Photoelectrochemical Reactor Optimization. II–Geometric Optimization of Perforated Photoelectrodes

Abstract: Results have been reported previously of a model describing the performance of photoelectrochemical reactors, which utilize semiconductor | liquid junctions. This model was developed and verified using SnIV-doped α-Fe2O3 as photoanodes. Hematite films were fully characterized to obtain parameter inputs to a model predicting photocurrent densities. Thus, measured photocurrents were described and validated by the model in terms of measurable quantities. The complete reactor model, developed in COMSOL Multiphysic… Show more

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Cited by 7 publications
(5 citation statements)
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“…2, did not include a limitation by the photon flux. Although we imposed such a constraint in several of our other publications, 5–7 where we modelled the photocurrent, we did not do so in ref. 2.…”
Section: Gärtner–butler Model – Requirement Of Photocurrent Limitatio...mentioning
confidence: 99%
“…2, did not include a limitation by the photon flux. Although we imposed such a constraint in several of our other publications, 5–7 where we modelled the photocurrent, we did not do so in ref. 2.…”
Section: Gärtner–butler Model – Requirement Of Photocurrent Limitatio...mentioning
confidence: 99%
“…Previous studies have also explored modifications to the tandem device structure to facilitate ion transport. For example, a tandem nanowire embedded in a gas separation membrane or perforated tandem PEC device , can make both electron and ion transport paths short. In addition, a PEC cell with a louvered structure was also suggested to enhance the ion transport …”
mentioning
confidence: 99%
“…As previously discussed, one of the key advantages of PEC lies in its ability to minimize electrical and ion transport paths by employing appropriate structures. While suggestions such as tandem nanowires embedded in gas separation membranes or perforated tandem cells have been proposed to achieve this advantage, research in this area remains limited. We anticipate that these perspectives will offer valuable guidance to the field of PEC, encouraging further exploration and innovation in addressing the existing challenges and advancing the development of efficient tandem PEC devices.…”
mentioning
confidence: 99%
“…To improve the performance of the PEC CO 2 process, the effective factors like light intensity, operating mode (batch reaction system and continuous flow reaction system), operating conditions (temperature, pressure, flow rate), bandgap (type of semiconductors as photocatalyst), pH (type of electrolyte), product separator (type of ion-exchange membrane), and cell configurations were reviewed in many pieces of research for laboratory scale. The arrangement and PEC cell geometric configuration of the main components include photoelectrode, counter-electrode, electrolyte, and ionic conducting membrane which are still challenging for investigation in the laboratory and pilot plant, therefore, the numerical study for CO 2 reduction should be applied to model and simulate the process [40].…”
Section: Conceptual Design Of Photoelectrochemical Co 2 Rrmentioning
confidence: 99%
“…𝜙0 is equilibrium potential (V) Therefore, the rate of electrochemical reactions at the interface od electrodes expressed as 𝑅 𝑖 is shown in Eq. (40).…”
Section: Electrochemical Kineticsmentioning
confidence: 99%