Hydrogen Production from Steam Reforming of Acetic Acid over Ni-Fe/Palygorskite Modified with Cerium

Wang, Yishuang; Chen, M.; Yang, Jie; Liu, Shaomin; Yang, Zhonglian; Wang, Jun; Tian, Liang

doi:10.15376/biores.12.3.4830-4853

Cited by 15 publications

(6 citation statements)

References 62 publications

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“…It was also reported that, for several Ni-based catalysts, La 2 O 3 led to a decrease in coke formation [194,206,207,217,233,234] and KOH and MgO improved the stability [194,206,207,[234][235][236]. It was also observed in several studies using Ni-based catalysts that the addition of CeO 2 improved the catalyst stability, namely through the decrease of coke production [195,197,[215][216][217][218]. So, the addition of basic oxides to the Al 2 O 3 support, in a general way, enhanced the catalytic performance.…”

Section: Deactivationmentioning

confidence: 80%

“…In the work of Savuto et al [197] (who studied the steam refo compounds), mayenite (Ca12Al14O33) was used as support of Ni, show tion properties that increase the resistance of the catalyst towards coke other hand, Choi et al [209] verified that a Ni/Al2O3 catalyst with a lar basic sites and few middle and strong basic sites is required to impro formance and minimize coke formation (in acetic acid steam reformin It was also reported that, for several Ni-based catalysts, La2O3 l coke formation [194,206,207,217,233,234] and KOH and MgO imp [194,206,207,[234][235][236]. It was also observed in several studies using Nithe addition of CeO2 improved the catalyst stability, namely through t production [195,197,[215][216][217][218]. So, the addition of basic oxides to the In the work of Savuto et al [197] (who studied the steam reforming of tar model compounds), mayenite (Ca 12 Al 14 O 33 ) was used as support of Ni, showing excellent oxidation properties that increase the resistance of the catalyst towards coke deposition.…”

Section: Deactivationmentioning

confidence: 83%

“…Analyzing the results of oxygenates conversion, only the catalysts Ni/ABC (ABC-Activated Biochar) and 6.6 wt.% Ni-10 wt.% Fe/(CeO 2 ) 0.4 -PG 0.6 (PG, palygorskite) did not convert completely the compounds fed [203,216]. Regarding the H 2 production, it was observed that the monometallic catalysts 15 wt.% Ni/α-Al 2 O 3 and 3.5 wt.% Ni/5 wt.% La 2 O 3 -ZrO 2 demonstrated higher performance (H 2 yield of 90%) in comparison with the remaining materials [194,196].…”

Section: Discussionmentioning

confidence: 99%

“…Besides that, Bangala et al [207] observed that the presence of TiO 2 decreases the conversion since it reduces the crystallinity and robustness of the material and destroys the Al 2 O 3 matrix. It was also observed that the addition of CeO 2 improved the catalyst performance, namely through the inhibition of coke production due to the enhanced catalyst redox properties [195,197,[215][216][217][218]. So, the addition of basic oxides (e.g., MgO, CeO 2 , La 2 O 3 , etc.)…”

Section: Nickel-based Catalysts 421 Catalytic Activity and H 2 Select...mentioning

confidence: 98%

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Catalytic Steam Reforming of Biomass-Derived Oxygenates for H2 Production: A Review on Ni-Based Catalysts

et al. 2022

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The steam reforming of ethanol, methanol, and other oxygenates (e.g., bio-oil and olive mill wastewater) using Ni-based catalysts have been studied by the scientific community in the last few years. This process is already well studied over the last years, being the critical point, at this moment, the choice of a suitable catalyst. The utilization of these oxygenates for the production of “green” H2 is an interesting alternative to fuel fossils. For this application, Ni-based catalysts have been extensively studied since they are highly active and cheaper than noble metal-based materials. In this review, a comparison of several Ni-based catalysts reported in the literature for the different above-mentioned reactions is carried out. This study aims to understand if such catalysts demonstrate enough catalytic activity/stability for application in steam reforming of the oxygenated compounds and which preparation methods are most adequate to obtain these materials. In summary, it aims to provide insights into the performances reached and point out the best way to get better and improved catalysts for such applications (which depends on the feedstock used).

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Section: Deactivationmentioning

confidence: 80%

Section: Deactivationmentioning

confidence: 83%

Section: Discussionmentioning

confidence: 99%

Section: Nickel-based Catalysts 421 Catalytic Activity and H 2 Select...mentioning

confidence: 98%

See 2 more Smart Citations

Catalytic Steam Reforming of Biomass-Derived Oxygenates for H2 Production: A Review on Ni-Based Catalysts

et al. 2022

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“…It was reported that Cr inhibited the formation of Ni 3 C and can modify the metal sites forming alloys with Ni [132,133], La 2 O 3 led to a decrease in coke formation [105,[132][133][134][135][136], K and MgO improved the stability [105,117,132,133,[136][137][138][139], and TiO 2 decreased the conversion [132]. It was also observed that the addition of CeO 2 improved the activity and stability of the catalyst [106,108,114,135,[140][141][142].…”

Section: Effect Of Promotersmentioning

confidence: 96%

Olive Mill Wastewater Valorization through Steam Reforming Using Multifunctional Reactors: Challenges of the Process Intensification

2022

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Olive oil mill wastewater (OMW) is a polluting stream derived from the production of olive oil and is a source of environmental pollution; this is relevant in many countries around the world, but particularly in all the Mediterranean region where major producers are located. In this effluent, several pollutants are present—namely, sugars, fatty acids, and polyphenols, among others. Nowadays, to reduce the pollutant load, several treatment techniques are applied, but these technologies have numerous cost and efficiency problems. For this reason, the steam reforming of the OMW (OMWSR) presents as a good alternative, because this process decreases the pollutant load of the OMW and simultaneously valorizes the waste with the production of green H2, which is consistent with the perspective of the circular economy. Currently, the OMWSR is an innovative treatment alternative in the scientific field and with high potential. In the last few years, some groups have studied the OMWSR and used innovative reactor configurations, aiming to improve the process’ effectiveness. In this review, the OMW treatment/valorization processes, the last developments on catalysis for OMWSR (or steam reforming of similar species present in the effluent), as well as the last advances on OMWSR performed in multi-functional reactors are addressed.

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Producing Hydrogen from Steam Reforming of Bio-oil Derived Oxygenated Model Compounds by Utilizing Ce-Modified Ni/Attapulgite Catalysts

et al. 2021

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Hydrogen Production from Steam Reforming of Acetic Acid over Ni-Fe/Palygorskite Modified with Cerium

Cited by 15 publications

References 62 publications

Catalytic Steam Reforming of Biomass-Derived Oxygenates for H2 Production: A Review on Ni-Based Catalysts

Catalytic Steam Reforming of Biomass-Derived Oxygenates for H2 Production: A Review on Ni-Based Catalysts

Olive Mill Wastewater Valorization through Steam Reforming Using Multifunctional Reactors: Challenges of the Process Intensification

Producing Hydrogen from Steam Reforming of Bio-oil Derived Oxygenated Model Compounds by Utilizing Ce-Modified Ni/Attapulgite Catalysts

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