A reaction system and method for producing ethylene by hydrogenation of acetylene
A technology for acetylene hydrogenation and ethylene production, which is applied in the fields of hydrogenation hydrocarbon production, organic chemistry, chemical recovery, etc. It can solve the problems of low reaction pressure in slurry bed, difficulty in heat transfer of reaction heat, and influence on catalyst activity, etc., and achieves stable state, The effect of reducing safety hazards and increasing operational flexibility
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Embodiment 1
[0056] like figure 2 As shown, a system for high-purity acetylene hydrogenation to ethylene is characterized in that the system includes a hydrogenation mixing unit 5, a hydrogenation reaction unit, a cryogenic separation unit 4, a vacuum filtration unit 7, and a rotating bed regeneration unit 6 and vacuum low pressure distillation unit 8.
[0057] The hydrogenation reaction unit includes a slurry bed 1, a slurry bed temperature control device 9, and a gas-liquid condensation separation device 3. The slurry bed is provided with a mixed gas inlet 16, a gas product outlet 10, a condensate inlet 11, a slurry Outlet 15 and heat exchange medium inlet and outlet 12, 13, the mixed gas inlet 16 is connected to the mixed gas outlet of the hydrogen acetylene mixing and equalizing unit, the slurry outlet 15 is connected to the vacuum filtration unit 7, and the temperature control device 9 is equipped with a The heat medium inlet and outlet are respectively connected to the slurry bed h...
Embodiment 2
[0063] Adopt the system of embodiment 1, the technology of high-purity acetylene hydrogenation ethylene is:
[0064] The catalyst diluent aluminum oxide with a particle size of 100 mesh to 150 mesh and the acetylene hydrogenation catalyst are mixed uniformly at a mass ratio of 2:1 to form a solid phase material, and then added to the slurry bed and mixed with the solvent N-methyl pyrrolidone to form a slurry. Mix 20KPa, 40°C acetylene with 0.44MPa, 5°C hydrogen at a molar ratio of 1:6 through a Venturi mixer to form a mixed gas. The mixed gas enters the slurry through the internal gas distributor of the slurry bed and reacts at 170°C. After the reaction, the gas phase material is subjected to cryogenic separation to obtain the target product ethylene, and the recovered hydrogen is mixed with the raw material hydrogen. The liquid phase material is passed through the rotary drum vacuum filter to obtain solid phase material and liquid phase material. The solid phase material is...
Embodiment 3
[0066] Adopt the system of embodiment 1, the technology of high-purity acetylene hydrogenation ethylene is:
[0067] The catalyst diluent perlite particles with a particle size of 100 mesh to 150 mesh and the acetylene hydrogenation catalyst are mixed uniformly at a ratio of 10:1 to form a solid phase material, and then added to the slurry bed and mixed with the solvent N-methyl pyrrolidone to form a slurry. Mix 40KPa, 80°C acetylene with 2.2MPa, 10°C hydrogen at a molar ratio of 1:15 through a Venturi mixer to form a mixed gas. The mixed gas enters the slurry through the internal gas distributor of the slurry bed and reacts at 170°C. After the reaction, the gas phase material is subjected to cryogenic separation to obtain the target product ethylene, and the recovered hydrogen is mixed with the raw material hydrogen. The liquid phase material is passed through a belt vacuum filter to obtain solid phase material and liquid phase material. The solid phase material is sent to ...
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