Sorption-enhanced hydrogen production by steam reforming of ethanol over mesoporous Co/CaO Al 2 O 3 xerogel catalysts: Effect of Ca/Al molar ratio

Hydrogen (H 2 ) was produced via sorption-enhanced steam reforming of ethanol (SESRE) over multifunctional hybrid materials made of cobalt (10 wt %) and a Ca-based sorbent modified by CeO 2 , ZrO 2 , and MgO. SESRE provides an excellent opportunity for producing pure H 2 from renewable ethanol by merging catalytic steam reforming and removal of the co-product carbon dioxide (CO 2 ) in a single process. The chosen hybrid materials were synthesized using the coprecipitation method and denoted as Co−CaO/CeO 2 (or HM1), Co−CaO/ZrO 2 (or HM2), and Co−CaO/MgO (or HM3). Their features were investigated using electron microscopy, X-ray diffraction, and CO 2 -temperature-programmed desorption. Their sorption capacity and adsorption breakthrough time were determined. All of the chosen materials performed remarkably well and improved H 2 production. Especially, hybrid materials containing cerium (HM1) and zirconium (HM2) displayed better adsorption capacity and extended breakthrough time than those bearing magnesium (HM3). At T = 773 K, HM1 showed the longest breakthrough time (45 min) and adsorption capacity (5.61 mol CO 2 /kg sorbent). Material HM2 demonstrated its highest breakthrough time (30 min) and adsorption capacity (3.78 mol CO 2 /kg sorbent) at T = 723 K and produced >85 mol % H 2 . HM3 displayed the highest breakthrough time (15 min) and adsorption capacity (1.51 mol CO 2 /kg sorbent) at T = 773 K, producing >75 mol % H 2 . The effects of reaction temperature, steam-tocarbon ratio in the feed, and gas hourly space velocity on the SESRE process were investigated. The performance of HM1, HM2, and HM3 was assessed over 20 cycles, and it was found that they were stable for up to 13, 10, and 5 cycles. Finally, probable reaction pathways for SESRE were discussed.

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“…These values are superior to those reported in earlier works. 42,52,53 3.2. Catalytic Activity Trials.…”

Section: Resultsmentioning

confidence: 99%

Improved Hydrogen Production from Sorption-Enhanced Steam Reforming of Ethanol (SESRE) Using Multifunctional Materials of Cobalt Catalyst and Mg-, Ce-, and Zr-Modified CaO Sorbents

Ghungrud

Vaidya

2019

Ind. Eng. Chem. Res.

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“… 16 The effect of the addition of Co species to Ni/Al 2 O 3 was confirmed in oxidative SRE where Ni and Co oxides on alumina were reduced at the lower temperature and led to more stable activity and yield of hydrogen. 17 As other catalysts, Co/ZnO–Al 2 O 3 , 18 Co/CeO 2 , 19–21 Co/ZrO 2 , 19,21 Rh/Co/CeO 2 or Al 2 O 3 , 22 K/Co/Al 2 O 3 , 23,24 Co/CaO–Al 2 O 3 , 25 Cu promoted Ni–Co/hydrotalcite 26 for SRE, Co/Al 2 O 3 and Co/CeO 2 Al 2 O 3 for oxidative SRE, 27 and Co–CaO/CeO 2 , ZrO 2 and MgO, 28 CaO–Ni/Al 2 O 3 (ref. 29 ) for sorption enhanced SRE have been reported to have superior activity and selectivity.…”

Section: Introductionmentioning

confidence: 99%

Effects of the addition of CeO₂ on the steam reforming of ethanol using novel carbon-Al₂O₃ and carbon-ZrO₂ composite-supported Co catalysts

2021

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“…Since the drawbacks of these processes are predominantly owing to the thermodynamic limitations of the reversible reactions, extensive research has been carried out to overcome these issues by purposely shifting the reaction towards the product side using Le Chatelier's principle. [58][59][60][61][62][63] The removal of either or both H2 and CO2 in situ results in enhanced H2 production and reactant conversion. This can be achieved by employing H2-selective membranes and/or using CO2 sorbents.…”

Section: Introductionmentioning

confidence: 99%

Enhanced hydrogen production from thermochemical processes

Yao

Clough

et al. 2018

Energy Environ. Sci.

142

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Sorption-enhanced hydrogen production by steam reforming of ethanol over mesoporous Co/CaO Al 2 O 3 xerogel catalysts: Effect of Ca/Al molar ratio

Cited by 38 publications

References 58 publications

Improved Hydrogen Production from Sorption-Enhanced Steam Reforming of Ethanol (SESRE) Using Multifunctional Materials of Cobalt Catalyst and Mg-, Ce-, and Zr-Modified CaO Sorbents

Improved Hydrogen Production from Sorption-Enhanced Steam Reforming of Ethanol (SESRE) Using Multifunctional Materials of Cobalt Catalyst and Mg-, Ce-, and Zr-Modified CaO Sorbents

Effects of the addition of CeO₂ on the steam reforming of ethanol using novel carbon-Al₂O₃ and carbon-ZrO₂ composite-supported Co catalysts

Enhanced hydrogen production from thermochemical processes

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Sorption-enhanced hydrogen production by steam reforming of ethanol over mesoporous Co/CaO Al 2 O 3 xerogel catalysts: Effect of Ca/Al molar ratio

Cited by 38 publications

References 58 publications

Improved Hydrogen Production from Sorption-Enhanced Steam Reforming of Ethanol (SESRE) Using Multifunctional Materials of Cobalt Catalyst and Mg-, Ce-, and Zr-Modified CaO Sorbents

Improved Hydrogen Production from Sorption-Enhanced Steam Reforming of Ethanol (SESRE) Using Multifunctional Materials of Cobalt Catalyst and Mg-, Ce-, and Zr-Modified CaO Sorbents

Effects of the addition of CeO2 on the steam reforming of ethanol using novel carbon-Al2O3 and carbon-ZrO2 composite-supported Co catalysts

Enhanced hydrogen production from thermochemical processes

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Effects of the addition of CeO₂ on the steam reforming of ethanol using novel carbon-Al₂O₃ and carbon-ZrO₂ composite-supported Co catalysts