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 Tri‐reforming of methane over a hydroxyapatite supported nickel catalyst
Tác giả hoặc Nhóm tác giả: Thanh Son Phan, Doan Pham Minh
Nơi đăng: Chemcatchem; Số: (In Press);Từ->đến trang: e202400192;Năm: 2024
Lĩnh vực: Khoa học công nghệ; Loại: Bài báo khoa học; Thể loại: Quốc tế
TÓM TẮT
For the first time, a catalyst containing 5wt.% Ni supported on a hydroxyapatite support (HAP) has been synthesized and evaluated in tri‐reforming of methane (TRM) for synthetic gas (syngas) production. Nickel nanoparticles could be easily formed on HAP surface by using the conventional incipient wetness impregnation technique. In TRM, under unfavorable reaction conditions from the thermodynamic point of view (e.g. medium reforming temperature of 700‐800 °C, low steam‐to‐carbon ratio, etc.), this catalyst showed high methane conversion (up to 90%), however, some deactivation took place. The latter could be explained by both the thermal sintering of nickel nanoparticles and the solid carbon formation. The impact of the main operational parameters has been studied. Increasing the reaction temperature, the molar ratio of oxygen‐to‐carbon and steam‐to‐carbon ratio are favorable for the methane conversion and mostly for the stability of the catalyst. High methane conversion of ca. 90% with a perfect catalytic stability during 300 hours‐on‐stream could be achieved at 800 °C and 1.4 bar, using a mixture containing low ratio of oxidant‐to‐carbon (molar ratio of CH4/CO2/H2O/O2/N2 = 1.0/0.67/0.9/0.1/0). These results offer the opportunity to further design an optimal Ni/HAP catalyst by improving metal‐support interaction and downsizing nickel nanoparticles.
ABSTRACT
For the first time, a catalyst containing 5wt.% Ni supported on a hydroxyapatite support (HAP) has been synthesized and evaluated in tri‐reforming of methane (TRM) for synthetic gas (syngas) production. Nickel nanoparticles could be easily formed on HAP surface by using the conventional incipient wetness impregnation technique. In TRM, under unfavorable reaction conditions from the thermodynamic point of view (e.g. medium reforming temperature of 700‐800 °C, low steam‐to‐carbon ratio, etc.), this catalyst showed high methane conversion (up to 90%), however, some deactivation took place. The latter could be explained by both the thermal sintering of nickel nanoparticles and the solid carbon formation. The impact of the main operational parameters has been studied. Increasing the reaction temperature, the molar ratio of oxygen‐to‐carbon and steam‐to‐carbon ratio are favorable for the methane conversion and mostly for the stability of the catalyst. High methane conversion of ca. 90% with a perfect catalytic stability during 300 hours‐on‐stream could be achieved at 800 °C and 1.4 bar, using a mixture containing low ratio of oxidant‐to‐carbon (molar ratio of CH4/CO2/H2O/O2/N2 = 1.0/0.67/0.9/0.1/0). These results offer the opportunity to further design an optimal Ni/HAP catalyst by improving metal‐support interaction and downsizing nickel nanoparticles.
[ chemcatchem - 2024 - phan - tri‐reforming of methane over a hydroxyapatite supported nickel catalyst.pdf ]
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