TH19998B - Process for the manufacture of petrochemical products - Google Patents

Abstract

Petrochemical products are produced by reacting in the gas phase between hydrocarbons and air. By using a suitable catalyst, petrochemical products are separated from the gas that comes out of the reactor. And part or all of that gas The remaining from the separation of the petrochemical products will pass through the selected sorbent to absorb hydrocarbons. Which substances absorb This will absorb hydrocarbons from the gas. Leaving only hydrocarbon-free gas to be released, air will be used to scavenge hydrocarbons from adsorbent. And the air-hydrocarbon mixture is fed back to the machine. New partial oxidation Air used to blow away (This should include air used to blow hydrocarbons and Gas without petrochemical products) is dried by flow through a 3A zeolite bed before being fed into the selection unit. Absorb hydrocarbons And the zeolite 3A bed is recovered by passing hot gas, which is the free gas. Hydrocarbons into the drug patent bed

Claims (9)

1. In the process of petrochemical products This includes (a) contact between hydrocarbons with gases containing oxygen selected from air and air with high oxygen concentrations in the reaction zone. With an appropriate oxidation catalyst, under circumstances which generate a gas. Petrochemical products, non-reactive hydrocarbons and moisture (b) separation of such petrochemical products from gases. Petrochemical products This produces a gas without petrochemical products (c) passing at least part of the gas without such petrochemical products through the desiccant. Selected liner captures hydrocarbons. This will then absorb the unreactive hydrocarbons onto the adsorbent. Selected liner captures hydrocarbons. And will produce hydrocarbon-free waste gas. (D) Recovery of at least part of the selected hydrocarbon adsorbent by passing through the oxygenated gas. Which will produce gas currents made of hydrocarbons that are released. And (e) oxygen-containing gases feed at least part of the gas current back to the reaction area. Improvement of the assembly process as well Before passing the said oxygen gas into the bed of Selected adsorbents bind hydrocarbons. The oxygen-containing gas must go through the drying process. By relying on adsorption that changes the temperature back and forth In a system containing a bed of substance The selected adsorbents hold at least two moisture beds running at different stages. And with the form Operates at least one sorbent bed to dry the oxygen-containing gas and at least one sorbent bed in the recovery phase. Where at least one absorbent bed is in the During the aforementioned recovery process Will be at least partially recovered by passing gas flue Without such hydrocarbons 2. Process adjusted according to claim 1, which Of passing gas without such petrochemical products And gas containing oxygen is there it to the bed of the sorbent that selects the hydrocarbons. By passing these gases through the drying process. With an adsorption with back and forth temperature shifting in a system equipped with a selected sorbent bed. Hold at least three water beds. This will work in different stages and with a working model that the bed At least one bed always serves to dry the gas without petrochemical products, the bed of adsorbent. At least one bed serves to dry oxygen gases. And at least one absorbent bed. During rehabilitation One or more adsorbent beds during the recovery process. Will be at least partially recovered by passing such hydrocarbon-free flue gas. 3. Process adjusted according to claim 2, where the system consists of 3 zeolite 3A beds. 4. Process modified according to claim 3, in which at least part of the sorbent bed. To Do such recovery It is heated up through hot hydrocarbon-free waste gas, and then cooled down through unheated hydrocarbon-free waste gas. 5. Treatment improved according to claim 4. In which the period when the absorbent bed is heated up And the moment that the bed cools Should be equal And an interval equal to a quarter of the period It works at the adsorption bed, which is to dry gas that is free from petrochemical products or to dry oxygen-containing gases. 6. Procedures improved according to claim 1, in which the system consists of four beds. Selected moisture absorbent bed And there is always one bed of adsorbent that makes the gas That is free from dry petrochemical products And there will be a bed of absorbent that acts to make the gas with Dry oxygen, one bed of adsorbent undergoing heating through gas passage Disposed of free of hot hydrocarbons, and there is always one bed of adsorbent in between. It is cooled through a refrigerated hydrocarbon-free waste gas. 7. Process adjusted according to claim 6, the time it takes for the sorbent bed Heating up and the time it takes for the sorbent bed to cool. It should be the same interval and the interval for each of these steps is half the time of the sorbent bed cycle in the Serves to dry gas without petrochemical products Or serves to dry gas with oxygen 8. Process modified according to claim 6, through which hydrocarbon-free refrigerated gas will flow. The sorbent bed that has just completed the reheating process This will keep the absorbent bed cool. Down and heats up hydrocarbon-free gas. And this heating hydrocarbon-free gas Flows to the sorbent bed that has just completed the sorption process 9. Treatment improved according to claim 8, in which the hydrocarbon-free hot gas is heated further before being fed to the bed of the adsorbent. The adsorption phase has just been completed. 1 0. Process adjusted according to claim 1, 2 or 6, in which procedures (c) and (d) are performed at the same or different pressure. It ranges from about 1.2 to about 5 bar 1. 1. Process modified according to claim 10, in which procedures (c) and (d) are to be performed at pressure The same is significant 1 2. Process adjusted according to claim 11, where the pressure ranges from approximately 1.2 to approximately 1.75 bar 1. 3. Process modified according to claim 10, where steps (c) and (d) are performed at different pressures 1. 4. Procedures modified pursuant to claim 13, which also include during the (c) and (d) procedures, there is also a process of dehydration of hydrocarbons from the hydrocarbon sorbent. More by reducing the pressure And feedback the exited hydrocarbons back to the new reaction unit 1 5. Adjustment process according to claim 1, 2 or 6, where step (c) is performed at a pressure range from approximately 1.2 to approximately 1.75 and step (d) is performed at a pressure within Range of approx. 1 to approx. 1.5 bar 1 6. Process adjusted according to Clause 1, 2 or 6, any one. Where the selected substances absorb Such is zeolite 3A 1. 7. Process adjusted according to Clause 1, 2 or 6, any one In which the gas containing oxygen is ambient air 1 8. Process adjusted according to claim 1, in which the hydrocarbon is normal butane. And the aforementioned petrochemical products is Maleic Anhydride 1 9. Process adjusted according to claim 1, which is part of the non-production gas flow. Such petrochemical products Will be fed back to the reaction area