Method and device for removing solids and oil from quenching water and washing water in methanol to olefins process
A methanol-to-olefins and quenching water technology, applied in chemical instruments and methods, water/sewage multi-stage treatment, water/sludge/sewage treatment, etc., can solve incomplete catalyst recovery, paralysis of water treatment system, wear and tear to block pores To reduce the probability of forming large particles, increase the operating cycle of equipment, and reduce the cost of membrane replacement
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Embodiment 1
[0046] Such as figure 1 In the shown device flow, methanol enters the reactor 1, and reacts under the action of a catalyst to form products and by-products. Products and by-products entrain part of the catalyst in the form of gas and enter the quenching tower 2. The quenching water from the bottom of the quenching tower 2 has a temperature of 115° C., a catalyst content of 189 mg / L, and an oil content of 510 mg / L. Driven by the first ultrafiltration membrane feed pump 4-1, it enters the first ultrafiltration membrane assembly 5-1. The ultrafiltration membrane installed inside is a titanium oxide membrane. The ultrafiltration membrane works under different pressure conditions and also Back pressure can be added to form a transmembrane pressure difference. The membrane surface flow velocity is 5m / s, the pore size is 5nm, the temperature is 87°C, and the permeation side back pressure is 0.2MPa; the recoil condition is 0.8MPa, the recoil cycle is 45min, and the recoil time is 6s. ...
Embodiment 2
[0055] Such as figure 1 In the shown device flow, methanol enters the reactor 1, and reacts under the action of a catalyst to form products and by-products. Products and by-products entrain part of the catalyst in the form of gas and enter the quenching tower 2. The quenching water from the bottom of the quenching tower 2 has a temperature of 115° C., a catalyst content of 189 mg / L, and an oil content of 510 mg / L. Driven by the first ultrafiltration membrane feed pump 4-1, it enters the first ultrafiltration membrane assembly 5-1. The ultrafiltration membrane installed inside is a titanium oxide membrane. The ultrafiltration membrane works under different pressure conditions and also The transmembrane pressure difference can be formed by adding back pressure. The transmembrane pressure difference is 0.4Mpa, the pore size is 20nm, the temperature is 87°C, and the permeation side back pressure is 0.2MPa; the recoil condition is 0.8MPa, the recoil cycle is 45min, and the recoil t...
Embodiment 3
[0064] Such as figure 1 In the shown device flow, methanol enters the reactor 1, and reacts under the action of a catalyst to form products and by-products. Products and by-products entrain part of the catalyst in the form of gas and enter the quenching tower 2. The quenching water from the bottom of the quenching tower 2 has a temperature of 115° C., a catalyst content of 189 mg / L, and an oil content of 510 mg / L. Driven by the first ultrafiltration membrane feed pump 4-1, it enters the first ultrafiltration membrane assembly 5-1. The ultrafiltration membrane installed inside is a titanium oxide membrane. The ultrafiltration membrane works under different pressure conditions and also Back pressure can be added to form a transmembrane pressure difference. The transmembrane pressure difference is 0.4Mpa, the membrane surface flow rate is 3m / s, the temperature is 87°C, and the permeation side back pressure is 0.2MPa; the recoil condition is 0.8MPa, and the recoil cycle is 45min. ...
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