TH13540C3 - The synthesis of a metal catalyst on a conductive carbon substrate. From hermit flowers with hydrothermal carbonization and electroplating - Google Patents

Abstract

------ 03/11/2017 ------ (OCR) page 1 of number 1 page invention summary. The invention involves the synthesis of a metal catalyst on a carbon carrier. Capable of conductivity From hydrothermal carbonization and metal plating with Electric hermit flower Which consists of the process of improving the properties of the hermit flowers by Hydrothermal Then it is formed into pellets and reacted with carbonization. To make the carrier conductive and to develop the surface area and porosity of the hermit flowers synthesis of the desired metal. To be used as a metal catalyst in the production of fuel ------------ This invention involves the synthesis of a metal catalyst on a carbon carrier. Capable of conductivity From hydrothermal carbonization and metal plating with Electric hermit flower Which consists of the process of improving the properties of the hermit flowers by Hydrothermal Then it is formed into pellets and reacted with carbonization. To make the carrier conductive and to develop the surface area and porosity of the hermit flowers synthesis of the desired metal. To be used as a metal catalyst in the production of fuel oil.

Claims (6)

Disclaimer (all) which will not appear on the advertisement page. : ------ 03/11/2017 ------ (OCR) Page 1 of 2 pages Disclaimer 1. Process of metal catalyst synthesis on a carbon receiver conductive from incense flowers. hermit By hydrothermal carbonization and electroplating It consists of the following steps: a. Preparation of a conductive carbon pellet from a hermit flower, put it in the reactor and heated at a temperature of 80-350 degrees Celsius for 0.5-120 hours b. Carbonization at 100-1500 ° C under nitrogen atmosphere (N2 atmosphere) for 0.5-12 hours d. Metal coating on carbon support by electroplating. At a potential difference of 1 mV to 15 V and solution temperature 30-80 ° C 2. The synthesis of a metal catalyst on a carbon substrate that was conductive from the hermit flower. By hydrothermal carbonization and electroplating According to claim 1, the pre- and post-processing of the carbon support at 60-100 ° C for 4-72 hrs. 3. The synthesis of the metal catalyst on the carbon substrate conductive from the Hermit flowers By hydrothermal carbonization and electroplating According to claim 1, where the pellets are symmetrical and asymmetrical. 4. The synthesis of metal catalyst on the conductive carbon substrate from the hermit flower. By hydrothermal carbonization and electroplating According to claim 1, where the metal coating on the carbon support using the aforementioned electroplating The optimum electrical potential difference was 4-5 volts, page 2 of the number 2, page 5. The process of synthesis of metal catalysts on the conductive carbon substrate from the hermit flower. By hydrothermal carbonization and electroplating According to claim 1, where the metal coating on the carbon support using the aforementioned electroplating The optimum solution temperature was 40-50 degrees Celsius. 6. Synthesis of metal catalyst on a conductive carbon substrate from hermit flowers. By hydrothermal carbonization and electroplating According to Article 1, where such metals can be selected from a group of nickel (Ni), copper (Cu), cobalt (Co), molybdenum (Mo), lead (Sn), titanium. (Ti), Aluminum (Al), Zinc (Zn), Manganese (Mn), Iron (Fe), Tungsten (W), Ruthenium (Ru), Rhodium (Rh), Palladium ( Pd) and platinum (Pt), one or more combinations ------------ Revised 11/5/2017 1. Process of synthesis of metal-on-body catalysts. The base receives the carbon that conducts electricity from the hermit flowers. By hydrothermal carbonization and electroplating It consists of the following steps: a. Preparation of a conductive carbon pellet from a hermit flower, put it in a cylinder and heat it at a temperature of 80-350 degrees Celsius for 0.5-120 hours. B. Pellets c. Carbonization at a temperature of 100-1500 ° C under nitrogen atmosphere (N2 atmosphere) for 0.5-12 hrs. D. Metal coating on carbon supports using electroplating. At a potential difference of 1 mV to 15 V and solution temperature 30-80 ° C. 2. Synthesis of carbon support with high surface area and conductivity. According to claim 1, the aforementioned hermit flowers were dried before and after the preparation of the carbon support at 60-100 ° C for 4-72 hours. 3. The synthesis of the carbon support with high surface area and Has the ability to conduct electricity According to claim 1, where the pellets are symmetrical and asymmetric. 4. The synthesis of carbon supports with high surface area and conductivity. According to claim 1, where the metal coating on the carbon support using the aforementioned electroplating The optimum voltage is 4-5 volts. 5. The synthesis process of carbon support with high surface area and conductivity. According to claim 1, where the metal coating on the carbon support using the aforementioned electroplating The optimum solution temperature was 40-50 degrees Celsius. 6. Synthesis of metal catalyst on a conductive carbon substrate from hermit flowers. By hydrothermal carbonization and electroplating According to claim 1, the aforementioned metal can be chosen from a group consisting of nickel (Ni), copper (Cu), cobalt (Co), molybdenum (Mo), lead (Sn), titanium ( Ti), Aluminum (Al), Zinc (Zn), Manganese (Mn), Iron (Fe), Tungsten (W), Ruthenium (Ru), Rhodium (Rh), Palladium (Pd. ) And platinum (Pt), one or more combinations (original edit). 1. The synthesis of metal catalyst on a carbon substrate conducting electricity from hermit flowers. By hydrothermal carbonization and electroplating It consists of the following steps: a. Reacting hermit hydrothermal in a reactor. And heated at 80-350 degrees Celsius for 0.5-120 hours B. Pelletizing C. Carbonization at 100-1500 degrees Celsius under nitrogen atmosphere (N2 atmosphere) for 0.5 -12 hours d. Metal coating on carbon support using electroplating. At a potential difference of 1 mV to 15 V and a solution temperature of 30-80 ° C 2. The synthesis process of carbon support with high surface area and conductivity. According to claim 1, the aforementioned hermit flowers were dried before and after the preparation of the carbon support at 60-100 ° C for 4-72 hours. 3. The synthesis process of carbon supports with high surface area and conductivity. According to claim 1, where the grain is symmetrical and asymmetric. 4. The synthesis process of carbon support with high surface area and conductivity. According to claim 1, where the metal coating on the carbon support using the aforementioned electroplating With a suitable voltage of 4-5 volts 5. The synthesis process of carbon supports with high surface area and conductivity. According to claim 1, where the metal coating on the carbon support using the aforementioned electroplating The optimum solution temperature is 40-50 degrees Celsius. 6. The synthesis of metal catalyst on a carbon substrate conducting electricity from hermit flowers. By hydrothermal carbonization and electroplating According to claim 1, the aforementioned metal can be chosen from a group consisting of nickel (Ni), copper (Cu), cobalt (Co), molybdenum (Mo), lead (Sn), titanium ( Ti), Aluminum (Al), Zinc (Zn), Manganese (Mn), Iron (Fe), Tungsten (W), Ruthenium (Ru), Rhodium (Rh), Palladium (Pd. ) And platinum (Pt), one or more combinations