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Preparation method of kitchen waste based composite defect type conductive porous carbon material

A technology of porous carbon materials and kitchen waste, applied in the direction of carbon preparation/purification, hybrid capacitor electrodes, etc., can solve the problems that the degree of improvement cannot meet actual needs, limit large-scale development and utilization, and limit industrialization development, etc., to achieve improved thermodynamics Degradability, good energy storage effect, and superior conductivity

Active Publication Date: 2019-05-17
DALIAN UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Chinese patent document CN107335458A discloses a method for preparing iron-nitrogen-phosphorus co-doped carbon materials using p-bromophenylporphyrin, pyrrole, N,N dimethylformamide, triphenylphosphine, etc., but the process is relatively cumbersome Limiting its large-scale development and utilization
Chinese patent document CN107804833A discloses a three-dimensional network nitrogen, phosphorus and sulfur co-doped porous carbon material and its preparation method and application, but the use of toxic chemical reagents such as aniline, hexachlorocyclotriphosphazene and thiourea limits its practical application. Industrialization Development in Application
In addition, although heteroatom doping can improve the conductivity of the material to a certain extent, the degree of improvement still cannot meet the actual needs.
At present, according to most existing literature reports, when using biomass-based porous carbon materials as electrode materials, it is still necessary to add additional conductive agents.

Method used

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  • Preparation method of kitchen waste based composite defect type conductive porous carbon material
  • Preparation method of kitchen waste based composite defect type conductive porous carbon material
  • Preparation method of kitchen waste based composite defect type conductive porous carbon material

Examples

Experimental program
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Effect test

Embodiment 1

[0032] (1) After sorting out plastics, chopsticks, facial tissues, bones and other impurities in the food waste, use a meat grinder to grind the food waste into a paste;

[0033] (2) Put the crushed food waste into a special freezer, adjust the freezing temperature to -18°C, and freeze for 48 hours;

[0034] (3) put the frozen food waste into an oven for drying, and grind it into powder with a particle size of 75-150 μm;

[0035] (4) Fill a porcelain crucible with a lid with crushed kitchen waste and place it in a box-type resistance furnace. The pyrolysis time is 90 minutes, the pyrolysis temperature is 550°C, and the heating rate is 10°C / min;

[0036] (5) Add 3 times the amount of KOH to impregnate the carbonized carbonized material, then adjust the activation time to 60 minutes, the melting temperature to 400°C, the activation temperature to 800°C, and the heating rate to 10°C / min;

[0037] (6) After the reaction is completed, cool the sample to room temperature, take it o...

Embodiment 2

[0039] (1) After sorting out plastics, chopsticks, facial tissues, bones and other impurities in the food waste, use a meat grinder to grind the food waste into a paste;

[0040] (2) Put the crushed food waste into a special freezer, adjust the freezing temperature to -18°C, and freeze for 48 hours;

[0041] (3) put the frozen food waste into an oven for drying, and grind it into powder with a particle size of 75-150 μm;

[0042] (4) Fill a porcelain crucible with a lid with crushed kitchen waste and place it in a box-type resistance furnace. The pyrolysis time is 90 minutes, the pyrolysis temperature is 550°C, and the heating rate is 10°C / min;

[0043] (5) Add the carbonized carbonized material to 2 times the amount of KOH for impregnation, then adjust the activation time to 60 minutes, the melting temperature to 400°C, the activation temperature to 800°C, and the heating rate to 10°C / min;

[0044] (6) After the reaction is completed, cool the sample to room temperature, tak...

Embodiment 3

[0046] (1) After sorting out plastics, chopsticks, facial tissues, bones and other impurities in the food waste, use a meat grinder to grind the food waste into a paste;

[0047](2) Put the crushed food waste into a special freezer, adjust the freezing temperature to -18°C, and freeze for 48 hours;

[0048] (3) put the frozen food waste into an oven for drying, and grind it into powder with a particle size of 75-150 μm;

[0049] (4) Fill a porcelain crucible with a lid with crushed kitchen waste and place it in a box-type resistance furnace. The pyrolysis time is 90 minutes, the pyrolysis temperature is 550°C, and the heating rate is 10°C / min;

[0050] (5) Add the carbonized carbonized material to 1 times the amount of KOH for impregnation, then adjust the activation time to 60 minutes, the melting temperature to 400°C, the activation temperature to 800°C, and the heating rate to 10°C / min;

[0051] (6) After the reaction is completed, cool the sample to room temperature, take...

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Abstract

The invention provides a preparation method of a kitchen waste based composite defect type conductive porous carbon material. The moisture contained by kitchen waste per se is used as a freezing and thawing medium; the water does not need to be added; the thermal degradation performance of the kitchen waste is effectively improved; the heat energy consumption of the subsequent process is reduced;the rich protein of the kitchen waste per se is used as N and S sources; the use of toxic heteroatom precursors such as phosphonitrile or thiourea can be avoided; inorganic salts such as sodium chloride and potassium chloride contained by the kitchen waste per se are used as in-situ catalysts; the high-temperature treatment is not needed; the product graphitization degree and conduction performance can be improved; the prepared porous carbon has excellent conductivity; when the prepared porous carbon is used as a super capacitor energy storage element, good energy storage effects can be obtained without the addition of any conducting agents. The urban organic waste of kitchen waste is used as raw materials; the price of the raw materials is low; the production cost is low; the preparationprocess is simple; wide market prospects and environment benefits are realized; good prospects are provided for the high-value conversion application of the kitchen waste.

Description

technical field [0001] The invention belongs to the technical field of functional carbon materials and energy storage, and specifically relates to a method for preparing kitchen waste-based composite defect-type conductive porous carbon materials by using a freeze-thaw coupled melting method, and particularly relates to the application of conductive carbon materials to the preparation of supercapacitor energy storage device. Background technique [0002] According to a report released by the Qianzhan Industry Research Institute, the annual production of kitchen waste in the country is about 97 million tons. Food waste is extremely perishable and deteriorates. If it is not handled properly, it will not only waste biomass energy, but also endanger the ecological environment and human health. Therefore, the reasonable disposal and resource reuse of food waste has attracted widespread attention from all over the world. At present, the main food waste treatment processes include...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B32/05H01G11/24H01G11/30H01G11/34H01G11/44
Inventor 高原姬国钊李爱民张雷孙瑞璇张宇琳
Owner DALIAN UNIV OF TECH
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