Catalyst modification method for improving yield of hydrocarbons produced by catalytic pyrolysis of biomass

A catalytic pyrolysis and catalyst technology, applied in the field of biomass resource conversion and utilization, can solve the problems of reducing the yield of hydrocarbon target products, catalyst deactivation, blocking pores, etc., to improve catalytic performance, reduce acid amount and acid strength , the effect of increasing productivity

Active Publication Date: 2020-12-01
SOUTHEAST UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the steam products of biomass catalytic pyrolysis, the molecular sizes of the components are different. The light components with a molecular size smaller than the pore diameter of the catalyst are easy to enter the catalyst pores and be converted into hydrocarbon target products, while the heavy components with a molecular size larger than the pore diameter of the catalyst It is difficult for components to enter the pores of the catalyst, and it is easy to form carbon deposits under the acidic action of the outer surface of the catalyst to block the pores, resulting in deactivation of the catalyst. In addition, some active small molecular light components are also easily consumed under the acidic action of the outer surface of the catalyst, reducing the Hydrocarbon Target Product Yield

Method used

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  • Catalyst modification method for improving yield of hydrocarbons produced by catalytic pyrolysis of biomass
  • Catalyst modification method for improving yield of hydrocarbons produced by catalytic pyrolysis of biomass
  • Catalyst modification method for improving yield of hydrocarbons produced by catalytic pyrolysis of biomass

Examples

Experimental program
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Effect test

Embodiment 1

[0021] SiO will be purchased from Tianjin Nanhua Catalyst Co., Ltd. 2 / Al 2 o 3 The powdered HZSM-5 molecular sieve with a ratio of 38 is compressed into tablets under a pressure of 30MPa, and then crushed and sieved to obtain particles with a particle size range of 0.3-0.9mm; the HZSM-5 shaped particles are placed in a volume percentage of 60% water vapor + In a carrier gas atmosphere of 40% nitrogen, treat at 550°C for 15 minutes; place the HZSM-5 shaped particles after steam treatment in an air atmosphere at 600°C for 1 hour, and obtain the modified HZSM-5 catalyst after cooling.

[0022] Catalyst performance is tested by biomass catalytic pyrolysis reaction on a fluidized bed / fixed bed two-stage reactor, in which the first stage reactor is a fluidized bed reactor for rapid pyrolysis of biomass to generate pyrolysis steam, and the second stage reaction The device is a fixed-bed reactor, which is used to load HZSM-5 catalyst to convert biomass pyrolysis steam into hydrocar...

Embodiment 2

[0025] SiO will be purchased from Tianjin Nanhua Catalyst Co., Ltd. 2 / Al 2 o 3 The powdered HZSM-5 molecular sieve with a ratio of 38 is compressed into tablets under a pressure of 30MPa, and then crushed and sieved to obtain particles with a particle size range of 0.3-0.9mm; the HZSM-5 shaped particles are placed in a volume percentage of 60% water vapor + In a carrier gas atmosphere of 40% nitrogen, treat at 550°C for 30 minutes; place the HZSM-5 shaped particles after water vapor treatment in an air atmosphere at 600°C for 1 hour, and obtain the modified HZSM-5 catalyst after cooling.

[0026] The catalyst performance test method is the same as that in Example 1. After the reaction, the gas chromatographic analyzer is used to quantitatively analyze the hydrocarbon target products. The results show that the carbon yield of the hydrocarbon target products relative to the biomass raw material is 25.3%.

Embodiment 3

[0028] SiO will be purchased from Tianjin Nanhua Catalyst Co., Ltd. 2 / Al 2 o 3 The powdered HZSM-5 molecular sieve with a ratio of 38 is compressed into tablets under a pressure of 30MPa, and then crushed and sieved to obtain particles with a particle size range of 0.3-0.9mm; the HZSM-5 shaped particles are placed in a volume percentage of 60% water vapor + In a carrier gas atmosphere of 40% nitrogen, treat at 550°C for 60 minutes; place the HZSM-5 shaped particles after water vapor treatment in an air atmosphere at 600°C for 1 hour, and obtain the modified HZSM-5 catalyst after cooling.

[0029] The catalyst performance test method is the same as in Example 1. After the reaction, the gas chromatographic analyzer is used to quantitatively analyze the hydrocarbon target products. The results show that the carbon yield of the hydrocarbon target products relative to the biomass raw material is 25.1%.

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Abstract

The invention discloses a catalyst modification method for improving a yield of hydrocarbons produced by catalytic pyrolysis of biomass, and belongs to the field of biomass resource conversion and utilization. The method comprises the following steps: 1, tabletting and molding a powdery HZSM-5 molecular sieve, then crushing and screening particles, 2, placing the HZSM-5 molded particles in a carrier gas atmosphere containing water vapor, and carrying out constant temperature treatment, and 3, calcining the HZSM-5 molded particles subjected to water vapor treatment in air at a constant temperature, and cooling to obtain the modified HZSM-5 catalyst. By adopting the technical scheme provided by the invention, the skeleton structure and acidity of the HZSM-5 catalyst can be adjusted, the catalytic performance of the HZSM-5 catalyst in biomass pyrolysis steam catalytic conversion reaction is improved, and compared with an unmodified HZSM-5 catalyst, the yield of hydrocarbon target productsin biomass catalytic pyrolysis reaction is effectively improved.

Description

technical field [0001] The invention belongs to the field of conversion and utilization of biomass resources, and in particular relates to a catalyst modification method for improving the yield of biomass catalytic pyrolysis hydrocarbons. Background technique [0002] Aromatics and olefins are key basic raw materials in chemical production, and they are currently mainly derived from fossil energy such as petroleum. Fossil energy reserves are limited and non-renewable. At the same time, the consumption of fossil energy will lead to an increasingly serious problem of greenhouse gas emissions. At present, countries around the world are advocating that the energy structure should be diversified, clean, and low-carbon. The development of renewable clean energy has become a current research hotspot. . Biomass is the only renewable organic carbon source in nature, which can be used to replace traditional fossil energy to produce high-quality fuels and chemicals. Biomass is not on...

Claims

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Application Information

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IPC IPC(8): B01J29/40B01J35/10B01J37/00B01J37/10B01J37/08C10G1/00
CPCB01J29/40B01J37/0063B01J37/10B01J37/08C10G1/00B01J2229/16C10G2300/1011B01J35/615B01J35/633
Inventor 肖睿胡昌淞刘超张会岩吴石亮雷鸣
Owner SOUTHEAST UNIV
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