A steel slag–derived Boudouard reaction catalyst for improved performance of direct carbon solid oxide fuel cells

Jiao, Yong; Wang, Chongyang; Zhang, Liqin; An, Wenting; Zhou, Na; Yang, Guangming; Wang, Wei; Zhou, Wei; Li, Si‐Dian

doi:10.1002/er.4715

Cited by 6 publications

(7 citation statements)

References 54 publications

(246 reference statements)

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“…Our previous study revealed that the SS catalyst with active components of CaO and Fe 2 O 3 have catalytic activity on biomass pyrolysis, reforming reactions, and the Boudouard reaction (Table 3). 40 Promoted by the catalyst, biomass can produce more small molecule gas (CO, H 2 ), which will reduce the anode concentration polarization and significantly improve the output performance of the cell. Wang et al reported that when the cell configuration, anode materials and test conditions are identical, the anode concentration polarization is the main factor affecting the PPD, and the concentration polarization is determined by the concentrations of anode combustible gases 28 …”

Section: Resultsmentioning

confidence: 99%

“…The yield of the ATB char was 28%. In order to increase the gasification rate of the ATB sample, a mechanical mixing method was used to load the steel slag (SS)‐based catalyst of 50 wt% onto the ATB sample (ATB + SS) 40 . To prepare the ATB + SS sample, the catalyst was sieved through a 200 meshes sieve and then mixed with ATB powder in the mass ratio and ground in a mortar for 15 min.…”

Section: Methodsmentioning

confidence: 99%

“…In order to increase the gasification rate of the ATB sample, a mechanical mixing method was used to load the steel slag (SS)-based catalyst of 50 wt% onto the ATB sample (ATB + SS). 40 To prepare the ATB + SS sample, the catalyst was sieved through a 200 meshes sieve and then mixed with ATB powder in the mass ratio and ground in a mortar for 15 min. According to the same procedure, another group of samples, the medium density fiberboard (MDF) powder, the MDF char, and the MDF + SS, were prepared.…”

Section: Preparation Of Fuel Samplesmentioning

confidence: 99%

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Solid oxide fuel cell using agroforestry waste as fuel: A balance between power output and fuel utilization

Liu

Zhou

Zhang

et al. 2022

Asia-Pacific J Chem Eng

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Solid oxide fuel cell (SOFC) has the potential to convert biomass to electrical power cleanly and efficiently by integrating with in situ gasification of biomass. It is necessary to keep a balance between maximizing the power output of fuel cells and minimizing the pretreatment of biomass. Herein, we report the comparison of output performance between the apple tree branches (ATB) dried at 110 C and the one pyrolyzed at 500 C in SOFCs. The results show that the peak power densities (PPD) of SOFCs operated at 850 C were 157 and 238 mW cm À2 for the dried and the pyrolyzed samples, respectively. And the corresponding apparent fuel utilizations for them were 18.1% and 24.6%, respectively. However, if counting the pyrolysis yield ($28 wt%), the overall fuel utilization of the pyrolyzed sample declined from 24.6% to $6.9%. In addition, if loading the steel slag (SS)-based catalyst catalyst to the dried sample, its PPD at 850 C were almost doubled to 303 mW cm À2 , but the fuel utilization reduced to 9.2%. Meanwhile, SOFCs using the medium-density fiberboard (MDF) as fuel exhibited the parallel trends in electrochemical performance and fuel utilization.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Preparation Of Fuel Samplesmentioning

confidence: 99%

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Solid oxide fuel cell using agroforestry waste as fuel: A balance between power output and fuel utilization

Liu

Zhou

Zhang

et al. 2022

Asia-Pacific J Chem Eng

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“…As such, designing cost-effective catalysts for the Boudouard reaction is highly urgent. Recently, strontium slag [32,83] and steel slag [87] have been used for constructing Boudouard reaction catalysts. In Han et al's study, the application of strontium slag-derived catalysts can improve the DC-SOFC output from 189 to 248 mW•cm −2 at 850 • C, and the improved system attains a fuel utilization of 25.6% [83].…”

Section: Fuel Cellsmentioning

confidence: 99%

Repurposing Mining and Metallurgical Waste as Electroactive Materials for Advanced Energy Applications: Advances and Perspectives

Guo,

Chen,

Liu

et al. 2023

Catalysts

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Developing cost-effective electroactive materials for advanced energy devices is vital for the sustainable development of electrochemical energy conversion/storage systems. To reduce the fabrication cost of electroactive materials (electrocatalysts and electrodes), growing attention has been paid to low-cost precursors. Recently, mining and metallurgical waste has been used to design electroactive materials, which shows great economic and environmental benefits. Herein, current achievements in the applications of mining and metallurgical waste-derived electroactive materials in sustainable energy conversion/storage fields (batteries, supercapacitors, fuel cells, and small-molecule electro-conversion) are comprehensively analyzed. The waste-to-materials conversion methods and materials’ structure–performance relationships are emphasized. In addition, perspectives related to the further development and applications of waste-derived high-performance electroactive materials are pointed out.

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“…The catalyst must be pretreated with acetic acid, and without this pretreatment, carbon deposition results much more limited. This appears a limitation for a continuous process, but there are many alternative catalysts active in the Boudouard reaction, which were not explored by Luc et al [42] limiting their analysis to Fe and Fe2O3, and to 500°C as operational temperature, using as model for the study the direct carbon solid oxide fuel cells, but which typically operate at higher temperatures [48][49][50]. Note that the Boudouard reaction can be significantly promoted using microwaves [31].…”

Section: Introductionmentioning

confidence: 99%

Plasma assisted CO2 splitting to carbon and oxygen: A concept review analysis

Centi

Perathoner

Papanikolaou

2021

Journal of CO2 Utilization

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A steel slag–derived Boudouard reaction catalyst for improved performance of direct carbon solid oxide fuel cells

Cited by 6 publications

References 54 publications

Solid oxide fuel cell using agroforestry waste as fuel: A balance between power output and fuel utilization

Solid oxide fuel cell using agroforestry waste as fuel: A balance between power output and fuel utilization

Repurposing Mining and Metallurgical Waste as Electroactive Materials for Advanced Energy Applications: Advances and Perspectives

Plasma assisted CO2 splitting to carbon and oxygen: A concept review analysis

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