Beitrag zur Fischer‐Tropsch‐Synthese an Eisen‐Kontakten (Teil II)

Abstract: Die Warmeubergangszahlen QW an der GefaDwand und as an der Schlange sind nach G1. [2j und [3] berechnet fiir ein GefaD von 0.3 m Dmr. und eine Drehzahl von n = 125 U/min. Fur GefaOe grooeren Durchxossers werden Umrechnungsfaktoren angegeben. Die Zahlen sind in das uns gewohnte MaDsystem umgerechnet und abgerundet. Mack und Oh1 nehmen weiter an, daD Tabelle 4 auf beliebige Ruhrerformen und Drehzahlen iibertragbar sei, wenn man g!eicher in den Riihrer gestedrter Energie gleiche Wirkung zuschreibt. Diese Annahme… Show more

“…The increase in activity with copper addition that was found in the present study is in agreement with the results obtained in the Kolbel et al (1951) study at 230 °C, H2/CO = 2, and atmospheric pressure. Kolbel et al observed an increase in the overall activity already at very low promoter levels (ca.…”

“…Although this represents a rather small loss in activity, particularly in view of the fact that the catalyst was exposed to a variety of process conditions during this period of time, the observed trend is nevertheless consistent with literature findings concerning the effect of potassium on catalyst stability. As stated earlier, the addition of potassium fosters carbon deposition, and the latter leads to catalyst deactivation by blocking the active sites on the surface (e.g., Kolbel et al, 1951;Anderson et al, 1952;Dry, 1981;Bonzel and Krebs, 1981; Arakawa and Bell, 1983).…”

“…While several studies have been made of the individual effect of potassium promotion on unsupported iron, only a few investigations have been reported for copper promotion of precipitated iron catalysts that contain no potassium. Kolbel et al (1951) observed an increase in the overall activity at very low levels (ca. 0.1 wt %) of copper promotion, with no further effects at higher copper loadings.…”

Promoter effects on precipitated iron catalysts for Fischer-Tropsch synthesis

“…The increase in activity with copper addition that was found in the present study is in agreement with the results obtained in the Kolbel et al (1951) study at 230 °C, H2/CO = 2, and atmospheric pressure. Kolbel et al observed an increase in the overall activity already at very low promoter levels (ca.…”

“…Although this represents a rather small loss in activity, particularly in view of the fact that the catalyst was exposed to a variety of process conditions during this period of time, the observed trend is nevertheless consistent with literature findings concerning the effect of potassium on catalyst stability. As stated earlier, the addition of potassium fosters carbon deposition, and the latter leads to catalyst deactivation by blocking the active sites on the surface (e.g., Kolbel et al, 1951;Anderson et al, 1952;Dry, 1981;Bonzel and Krebs, 1981; Arakawa and Bell, 1983).…”

“…While several studies have been made of the individual effect of potassium promotion on unsupported iron, only a few investigations have been reported for copper promotion of precipitated iron catalysts that contain no potassium. Kolbel et al (1951) observed an increase in the overall activity at very low levels (ca. 0.1 wt %) of copper promotion, with no further effects at higher copper loadings.…”

Promoter effects on precipitated iron catalysts for Fischer-Tropsch synthesis

“…Although this represents a rather small loss in activity, particularly in view of the fact t h a t the catalyst was exposed t o a variety of process conditions during this period of time, the observed trend is nevertheless consistent w i t h literature findings concerning the effect of potassium on catalyst stability. As stated earlier the addition of potassium fosters carbon deposition, and the latter leads to catalyst deactivation by blocking the active sites on the surface (e.g., Kolbel et al, 1951;Anderson et al, 1952;Dry, 1981;Bonze1 and Krebs, 1981;Arakawa and Bell, 1983).…”

“…While several studies have been made of the individual effect of potassium promotion on unsupported iron, only a few investigations have been reported for copper promotion of precipitated iron catalysts that contain no potassium. Kolbel et al (1951) observed increase in the overall activity at very low levels (ca. 0.1 wt%) of copper promotion, w i t h n o further efFects at higher copper loadings.…”

Development and process evaluation of improved Fischer-Tropsch slurry catalysts. Final report

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