TH13166C3 - Catalyst synthesis process of carbon-based metal catalysts With hydrothermal processes Carbonization And impregnation (lmpregnation) of hermit flowers - Google Patents

Abstract

The invention involved synthesis of a carbon-supported metal catalyst. Catalyst with hydrothermal process Carbonization And impregnation (lmpregnation) of hermit flowers Which the process of synthesis of supporting the catalyst Will be done using the process Hydrothermal The metal catalyst was then dosed onto the surface of the catalyst support by an impregnation process. (lmpregnation), which consists of the process of making a catalyst to Solution by mixing the desired metal salt with the spreader. Then the product was burned to temperature. High under nitrogen atmosphere (Cabonization) to make the product conductive. The product will Through pellets prior to the carbonization process for reuse and convenience in Applications for synthetic diesel fuel applications

Claims (7)

Disclaimer (all) which will not appear on the announcement page: Revised May 26, 2017 1. Synthesis of a catalyst based carbon metal catalyst. With hydrothermal processes Carbonization And impregnation (Impregnation) from hermit flowers that consist of the following steps: A. Reacting hermit hydrothermal flowers in a reactor. And heated in temperatures 120 - 220 degrees Celsius for 2-10 hours. B. Adding a solution of transition metal salt in the solvent. And mixed with the accelerator support The carbon reaction obtained from the A. At 60 - 105 degrees Celsius C. Pelletizing D. Carbonization at 500 - 900 degrees Celsius under nitrogen atmosphere (N2 atmosphere) for 0.5 - 4.0 hours 2. Synthesis process Catalyzed carbon-based metals With hydrothermal processes Carbonization And impregnation Impregnation from the hermit flower according to claim 1, which was dried before and after the preparation of carbon support. Such as at 60 - 120 degrees Celsius for 12-24 hours. 3. Process synthesis of metal catalyst with carbon as a catalyst. With hydrothermal processes Carbonization And impregnation (Impregnation) of flowers. Hermit according to claim 1, where the pellets are symmetrical and asymmetrical. With hydrothermal processes Carbonization And impregnation Impregnation from the hermit flower according to claim 1, where the transition metal salts selected from the group containing the transition metal nitrate salts. Transition metal ammonium salts Transition Metal Chloride Salt Transition Metal Bromide Salt Transition metal iodide salts Sulfate salts of transition metals One or more combinations Where the above-mentioned transition metal from the group consists of nickel, copper, cobalt, chromium, manganese, iron, zinc, molybdenum, tungsten. Or a combination of several 5. Process synthesis of metal catalysts with carbon as a catalyst support With hydrothermal processes Carbonization And impregnation (Impregnation) from hermit flowers according to claim 1, where the ratio between the salt of the transition metal and the catalyst support was 0.2: 1 to 0.6: 1 percent by weight. Carbon-based metals for catalysts With hydrothermal processes Carbonization And impregnation (Impregnation) of the hermit flowers according to claim 1, where the aforementioned solvent selected from the group containing Deionized water, methanol, ethanol, one or more combinations 1.Carbon-based metal catalyst synthesis process With hydrothermal processes Carbonization And impregnation (lmpregnation) from hermit flowers that consist of the following steps: a. Reacting hermit hydrothermal flowers in a reactor. And heated in a temperature of 120 - 220 degrees Celsius for 2-10 hours. B. Adding a solution of metal salt, sand, solidification in the solvent. And mixed with the accelerator support Carbon reaction obtained from Article A at 60 - 105 ° C. Pelletizing d. Carbonization at 500 - 900 ° C under nitrogen atmosphere (N2 atmosphere) for 0.5 - 4.0 h. 2.Carbon-based metal catalyst synthesis process With hydrothermal processes Carbonization And impregnation (lmpregnation) from flowers In accordance with claim 1, the hermit flowers were dried before and after the preparation of carbon support. Such at a temperature of 60 - 120 degrees Celsius for 12-24 hours. 3.Carbon-based metal catalyst synthesis process With hydrothermal carbonation and impregnation processes (lmpregnation) from flowers Hermit, according to claim 1, where the beads are symmetrical and asymmetrical 4.Carbon-based metal catalyst synthesis process With hydrothermal processes Carbonization And impregnation (lmpregnation) from flowers Hermit, according to claim 1, where the aforementioned transition metal salts are selected from the group containing the transition metal nitrate salts. Transition metal ammonium salts Transition Metal Chloride Salt Transition Metal Bromide Salt Transition metal iodide salts Sulfate salts of transition metals One or more combinations 5. Carbon-based metal catalyst synthesis process With hydrothermal carbonation and impregnation processes (lmpregnation) from flowers Claim 4, where the aforementioned transition metal is selected from a group consisting of nickel, copper, cobalt, chromium, manganese, iron, zinc, molybdenum, tungsten, one or more. 6. Synthesis of metal catalyst with carbon as a catalyst. With hydrothermal processes Carbonization And impregnation (lmpregnation) from flowers Hermit, according to claim 1, where the ratio between the salt of the transition metal to the catalyst support is 0.2; 1 to 0.6; 1 percent by weight. 7.Carbon-based metal catalyst synthesis process With hydrothermal processes Carbonization And impregnation (lmpregnation) from flowers Hermit incense according to claim 1 where such solvent can be selected from the group consisting of Deionized water, methanol, ethanol, one or more combinations