SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2906482408> ?p ?o ?g. }

Showing items 1 to 100 of ±196 with 100 items per page.

W2906482408 endingPage "219" @default.
W2906482408 startingPage "200" @default.
W2906482408 abstract "Highly loaded Ni-Al2O3 catalysts (14–88 wt.-% Ni) were prepared by dry impregnation, wet impregnation, deposition precipitation and coprecipitation and tested in the CO2 methanation. By means of ICP-OES, XRD, TPR, H2 chemisorption, N2 physisorption and thermogravimetry, different Ni species were identified, and their dependence on the synthesis method and the Ni loading was investigated. The catalysts prepared had Ni particle sizes of 5–91 nm and Ni surface areas of 5–51 m2 g−1. It could be shown that the turnover frequency (TOF) does not depend on metal-support interactions, the metal-support interface or the particle size. Hence, the CO2 methanation on Ni-Al2O3 catalysts is clearly a structure-insensitive reaction. There is a linear correlation between the conversion and the Ni surface area at constant modified residence time. Hence, catalysts with the highest Ni surfaces, i.e., the samples prepared by deposition precipitation and coprecipitation, reached the highest weight time yields. The prerequisites for high Ni surface areas at high Ni loadings could be elucidated: During the synthesis, Ni has to be able to completely penetrate the mesopores of the support. Furthermore, a linear correlation between the selectivity to CO and the weight percentage of the impurity Na could be revealed. The stability of the supported catalysts was highly dependent on the spatial distribution of Ni and the stability of the support: A high dispersion or the presence of unsupported Ni reduced the stability. Furthermore, the stability of the supported catalysts was smaller than the one of the coprecipitated catalysts, where the stability decreased with increasing nNi/nAl." @default.
W2906482408 created "2019-01-01" @default.
W2906482408 creator A5022036571 @default.
W2906482408 creator A5059770542 @default.
W2906482408 creator A5066604272 @default.
W2906482408 creator A5067402740 @default.
W2906482408 creator A5077766925 @default.
W2906482408 creator A5081568853 @default.
W2906482408 creator A5090314025 @default.
W2906482408 date "2019-06-01" @default.
W2906482408 modified "2023-10-04" @default.
W2906482408 title "Is the CO2 methanation on highly loaded Ni-Al2O3 catalysts really structure-sensitive?" @default.
W2906482408 cites W1433014748 @default.
W2906482408 cites W16176707 @default.
W2906482408 cites W1856827022 @default.
W2906482408 cites W1898416237 @default.
W2906482408 cites W1917484965 @default.
W2906482408 cites W1940496428 @default.
W2906482408 cites W1964785836 @default.
W2906482408 cites W1966441009 @default.
W2906482408 cites W1967052254 @default.
W2906482408 cites W1969165734 @default.
W2906482408 cites W1973256527 @default.
W2906482408 cites W1974828104 @default.
W2906482408 cites W1979907958 @default.
W2906482408 cites W1980386332 @default.
W2906482408 cites W1985443259 @default.
W2906482408 cites W1986915058 @default.
W2906482408 cites W1988052029 @default.
W2906482408 cites W1989307736 @default.
W2906482408 cites W1991073290 @default.
W2906482408 cites W1991826588 @default.
W2906482408 cites W1992643748 @default.
W2906482408 cites W1994011728 @default.
W2906482408 cites W1998241890 @default.
W2906482408 cites W2000909003 @default.
W2906482408 cites W2001219343 @default.
W2906482408 cites W2004049322 @default.
W2906482408 cites W200533942 @default.
W2906482408 cites W2007863129 @default.
W2906482408 cites W2009066529 @default.
W2906482408 cites W2009229698 @default.
W2906482408 cites W2009521450 @default.
W2906482408 cites W2011439539 @default.
W2906482408 cites W2013411751 @default.
W2906482408 cites W2018198474 @default.
W2906482408 cites W2022042730 @default.
W2906482408 cites W2025515338 @default.
W2906482408 cites W2026567265 @default.
W2906482408 cites W2030837291 @default.
W2906482408 cites W2037769456 @default.
W2906482408 cites W203845114 @default.
W2906482408 cites W2041035467 @default.
W2906482408 cites W2042095755 @default.
W2906482408 cites W2042120320 @default.
W2906482408 cites W2042970226 @default.
W2906482408 cites W2045065227 @default.
W2906482408 cites W2045454960 @default.
W2906482408 cites W2045510804 @default.
W2906482408 cites W2046466739 @default.
W2906482408 cites W2048141871 @default.
W2906482408 cites W2048362514 @default.
W2906482408 cites W2052873968 @default.
W2906482408 cites W2054550266 @default.
W2906482408 cites W2057006231 @default.
W2906482408 cites W2058331375 @default.
W2906482408 cites W2059343855 @default.
W2906482408 cites W2059465158 @default.
W2906482408 cites W2063619209 @default.
W2906482408 cites W2066206239 @default.
W2906482408 cites W2068405174 @default.
W2906482408 cites W2070120629 @default.
W2906482408 cites W2070661226 @default.
W2906482408 cites W2073479195 @default.
W2906482408 cites W2073970939 @default.
W2906482408 cites W2074917830 @default.
W2906482408 cites W2075228459 @default.
W2906482408 cites W2077409908 @default.
W2906482408 cites W2080755531 @default.
W2906482408 cites W2081070655 @default.
W2906482408 cites W2081089139 @default.
W2906482408 cites W2083595698 @default.
W2906482408 cites W2086888744 @default.
W2906482408 cites W2087157284 @default.
W2906482408 cites W2088530720 @default.
W2906482408 cites W2090447561 @default.
W2906482408 cites W2095383535 @default.
W2906482408 cites W2105792026 @default.
W2906482408 cites W2111865195 @default.
W2906482408 cites W2113570021 @default.
W2906482408 cites W2116444501 @default.
W2906482408 cites W2120088682 @default.
W2906482408 cites W2130090225 @default.
W2906482408 cites W2132748470 @default.
W2906482408 cites W2147196451 @default.
W2906482408 cites W2158161993 @default.
W2906482408 cites W2159742564 @default.
W2906482408 cites W2165608726 @default.