Separating method and equipment of low-carbon olefins beneficial to product recovery

Abstract

The invention discloses a separating method and corresponding equipment of low-carbon olefins beneficial to product recovery. The separating method comprises the steps of: pretreating and delivering oxygenated chemical-converted low-carbon olefin flow into a depropanization system, cooling and delivering top products of the depropanization system into a demethanizing tower, cooling the top of the demethanizing tower only with a propylene refrigerant, delivering vapor phase at the tower top into a pressure swing adsorption device for recovering ethylene, returning the recovered crude ethylene gas back before a segment of compressor to be mixed with low-carbon olefin reaction gas flow, so that a copious cooling cold box and an ethylene refrigeration compressor are omitted, and the fixed investment and energy consumption can be reduced. Compared with the prior art, the separating method and corresponding equipment have the advantages of being low in separating energy consumption, high in material recovery rate, small in influence on the following ethylene and propylene separation, and the like.

Description

technical field [0001] The invention belongs to the technical field of separation and purification of low-carbon olefins, and relates to a method of producing low-carbon olefins mainly using oxygen-containing compounds (mainly methanol, ethanol, dimethyl ether, C4-C10 alcohol compounds or their mixtures, etc.) as raw materials. In the process of logistics (mainly ethylene and propylene), the separation method and equipment of the product low-carbon olefin gas. Background technique [0002] The traditional source of ethylene and propylene is mainly steam cracking of petroleum hydrocarbons, and its raw material is mainly naphtha. However, the shortage of petroleum resources in my country is the main reason restricting the development of my country's ethylene industry. With the increasingly tight supply of oil, the production of low-carbon olefins from oxygenated compounds (OTO process) has become a research hotspot. A new process route for basic organic chemical raw materials...

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Problems solved by technology

[0021] To sum up, according to the characteristics of low-carbon olefin products from oxygenates, it is reasonable to avoid cryogenic separation; for the oil washing process, the main difference lies in the choice of absorbent and the sequence of the process arrangement, and its main disadvantages are : The amount of solvent circulation is large, and the energy consumption of the cooling cycle after solvent regeneration is significant, and part of the absorbent will be used as fuel gas with the top gas of the absorption tower, which reduces the use value of the absorbent itself. The process has certain restrictions on the selection of solvents, and sometimes requires Adding a desorption device and increasing the temperature of the demethanizer makes the loss of ethylene larger compared with the cryogenic process; for the improved "pre-cutting + oil absorption" and the process of adding an expander at the top of the demethanizer, both can reduce the amount of solvent circulation and Lower the tail gas temperature to increase the yield, but since the solvent comes from the inside of the system, the energy consumption is unavoidable in the solvent regeneration process of heating first and then cooling. , and it is necessary to establish a solvent cycle at a cold start, which brings inconvenience to driving and parking

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