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Efficient heat recovery and waste strong brine treatment integrated system and method

An integrated system, heat recovery technology, applied in the petroleum industry, the manufacture of combustible gas, the chemical modification of combustible gas, etc., can solve the problems of a large number of solid hazardous waste salts, deterioration of heat transfer efficiency, low steam quality, etc., to achieve technical economic Enhanced competitiveness, reduced processing and running costs, and high operational stability

Pending Publication Date: 2020-03-27
西安旭华成能源科技有限公司
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Problems solved by technology

Among them, the quenching process is the most widely used. However, the syngas quenching process has low thermal efficiency of the system and low-grade steam produced. At the same time, complex black and gray water treatment systems, carbon washing towers, concentrated salt wastewater treatment systems, etc. need to be built. , there are disadvantages such as long process, low comprehensive energy efficiency and a large amount of solid hazardous waste salt
Although the conventional waste boiler process partly solves the problems encountered in the chilling process, because the high-temperature crude syngas usually carries a large amount of unconverted carbon-containing particles with irregular surfaces and fine particles such as fly ash and slag, and contains A large number of high-temperature corrosive gases such as H2S, HCN, etc., these components will have an important impact on the radiation, convective heat transfer characteristics of the crude gas and the contamination characteristics of the ash, resulting in erosion wear, high temperature corrosion, hanging Problems such as slag, scarring, clogging, and deterioration of heat transfer efficiency have become the biggest technical bottlenecks faced by the conventional waste boiler process to achieve safe, stable and long-term operation

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  • Efficient heat recovery and waste strong brine treatment integrated system and method

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Embodiment Construction

[0036] In order to make the technical solutions and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.

[0037] see figure 1 , the system of the present invention includes a multi-effect fluidized bed conversion subsystem 1, a bed particle circulation subsystem 2 and a fine particle separator 18;

[0038] The multi-effect fluidized bed conversion subsystem 1 includes a high-temperature cracking zone / cracking conversion zone 201-1, a particle agglomeration zone 201-2, and a dense-phase conveying zone 201, which are sequentially arranged in the multi-effect fluidized bed from bottom to top. -3 and built-in gas-solid splitter 201-5;

[0039] The material inlet at the lower end of the high-temperature cracking zone / cracking conversion zone 201-1 communicates with the crude synthesis gas stream 1-0 and the cracked gas 101 through a high-temperature-resistant wea...

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Abstract

The invention discloses an efficient heat recovery and waste strong brine treatment integrated system and method. High-concentration brine is jetted into a hydrothermal conversion zone from an atomizing nozzle, and make direct contact with 700-1100 DEG C mixed fluid consisting of agglomerated crude particles and crude synthesis gas to generate a hydrothermal conversion reaction; heavy metals, soluble salts such as sodium chloride and miscellaneous salt components such as sodium sulfate in the high-concentration effluent brine react with molten slag and fly ash particles in crude synthesis gasunder a high-temperature condition and are converted into mineral species which are solidified into two or more of wollastonite, nepheline, sodalite, soda-lime type aluminosilicate feldspar and soda-lime stone without leaching environmental risks, have stable physicochemical properties, have no dissolution risk under natural conditions and do not cause secondary pollution to the environment, especially underground water; organic carbon in the high-concentration waste brine is converted into CO and H2, and water absorbs sensible heat and then is converted into high-quality steam with the temperature of 400-500 DEG C and the pressure of 5.0-10.0 MPa for synthesis gas conversion.

Description

technical field [0001] The invention relates to an efficient and clean conversion and utilization of carbonaceous materials into coal chemical industry, coal gasification technology upgrade, and synthesis gas purification technology, and specifically relates to an integrated system and method for efficient heat recovery and waste concentrated brine treatment. Background technique [0002] The gasification technology of carbon-rich materials such as coal, heavy oil, petroleum coke, oil sands, and asphalt is not only an important way for the clean and efficient conversion and utilization of inferior carbon-rich materials, but also the gasification of the above-mentioned carbon-rich materials to produce synthesis gas, which is then sent downstream Leading devices for extending the large-scale hydrogen production, synthesizing low-carbon olefins, ethylene glycol, and producing high-end energy and chemical products through the F-T route, etc. Gasification raw materials and gasifi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C10K3/00C10J3/72C10J3/00
CPCC10J3/00C10J3/72C10K3/00
Inventor 傅祥
Owner 西安旭华成能源科技有限公司
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