Treatment method of penicillin mushroom dregs

A penicillin fungus residue and treatment method technology, which is applied in the treatment of biological organic parts, fertilizers made from biological waste, and applications, can solve the problems of groundwater pollution by exudate, complicated preparation methods, and low feed safety, etc. Significant environmental and social benefits, economical and thorough treatment, good treatment effects

Active Publication Date: 2013-06-12
河北华药环境保护研究所有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, trace amounts of antibiotics remaining in the bacteria residue may be enriched in animals and plants, thereby posing potential impacts and risks on ecosystems, food safety, and human health.
On August 1, 2008, my country clearly listed antibiotic residues as "hazardous waste" and prohibited antibiotic residues from being directly used as feed and fertilizer; 2) Incineration: The incineration of penicillin residues can quickly turn the residues into ashes , so as to achieve the purpose of reduction and harmlessness, but because the penicillin residue has the characteristics of large output, high moisture content, and low calorific value, drying and incineration of the residue requires a lot of heat energy, so the cost of incineration is high; The processing capacity of some hazardous waste incineration facilities is far from meeting the demand, and it is difficult to implement the incineration disposal of penicillin residue; 3) Landfill: Landfill is a relatively mature technology. Large area, high disposal cost, difficulty in site selec

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025]A. Thermal hydrolysis and separation treatment: First, add 200 parts of penicillin bacteria residue and 800 parts of water into the reaction kettle, stir the above materials to mix them evenly; then use steam heating to raise the temperature of the materials in the reaction kettle to 60°C , constant temperature reaction for 0.5h; after the reaction, the materials in the reactor were subjected to solid-liquid separation treatment, that is, the materials in the reactor were left to stand at room temperature for 15 hours to form supernatant and sediment; finally, the supernatant was introduced into conventional wastewater treatment The system is processed, and the sediment is reserved for subsequent use, and the solid content of the obtained sediment is 9%.

[0026] B. Anaerobic digestion treatment: first inoculate the anaerobic activated sludge with 20% of the volume of the anaerobic fermentation tank into the anaerobic fermentation tank; The ratio of 3:1 is uniformly mixe...

Embodiment 2

[0032] A. Thermal hydrolysis and separation treatment: First, add 100 parts of penicillin bacteria residue and 400 parts of water into the reaction kettle, stir the above materials to mix them evenly; then use steam heating to raise the temperature of the materials in the reaction kettle to 70°C , constant temperature reaction for 2 hours; after the reaction, the materials in the reactor were subjected to solid-liquid separation treatment, that is, the materials in the reactor were left to stand at room temperature for 25 hours to form a supernatant and sediment; finally, the supernatant was introduced into a conventional water treatment system Carry out follow-up treatment, leave sediment for subsequent use, the solid content of gained sediment is 6%.

[0033] B. Anaerobic digestion treatment: first inoculate the anaerobic activated sludge of 50% of the volume of the anaerobic fermentation tank into the anaerobic fermentation tank; Mix uniformly at a volume ratio of 4:1 to ob...

Embodiment 3

[0039] A. Thermal hydrolysis and separation treatment: First, add 180 parts of penicillin bacteria residue and 600 parts of water into the reactor, stir the above materials to mix them evenly; then use steam heating to raise the temperature of the materials in the reactor to 80°C , constant temperature reaction for 1.5h; after the reaction, the materials in the reactor were subjected to solid-liquid separation treatment, that is, the materials in the reactor were left to stand at room temperature for 20 hours to form supernatant and sediment; finally, the supernatant was introduced into conventional wastewater treatment The system is processed, and the sediment is reserved for subsequent use, and the solid content of the obtained sediment is 7%.

[0040] B. Anaerobic digestion treatment: first inoculate the anaerobic activated sludge with 30% of the volume of the anaerobic fermentation tank into the anaerobic fermentation tank; Mix uniformly at a ratio of 1:1 to obtain a sedim...

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Abstract

The invention discloses a treatment method of penicillin mushroom dregs. The treatment method comprises the following process steps of: (A), pyrohydrolysis and separation treatment: uniformly mixing the penicillin mushroom dregs with water to perform constant-temperature hydrolysis reaction, and performing solid-liquid separation at a room temperature after the reaction is finished to obtain sediments for later use; and (B), anaerobic digestion treatment: inoculating anaerobic activated sludge in an anaerobic fermentation tank, mixing the sediments obtained in the step (A) with surplus sludge caused by wastewater biological treatment and injecting a mixture into the fermentation tank to stir at a constant temperature, and draining biogas residues and feeding during fermentation. By using the treatment method, residues of drugs in the penicillin mushroom dregs can be completely eliminated, so that the problem that anaerobic fermentation of single penicillin mushroom dreg cannot be efficiently sustained is solved, and minimization and innocent treatment to the penicillin mushroom dregs are realized; and moreover, biogas residues obtained by treatment of the penicillin mushroom dregs can be used as raw materials of organic fertilizers, and biogas generated during anaerobic reaction can be used as cleaning fuels, so that safe and effective treatment and resource utilization of the penicillin mushroom dregs are realized.

Description

technical field [0001] The invention relates to a treatment technology for antibiotic residues, in particular to a treatment method for penicillin residues. Background technique [0002] my country is a big penicillin producing country, and the solid waste produced in the penicillin production process is penicillin slag, which has high water content and complex composition, not only contains a large amount of bacterial protein (accounting for more than 40% of dry weight), rich in vitamins Nutrients such as growth factors and culture medium residues, as well as various toxic metabolites of microorganisms and downstream processing additives, etc. Penicillin slag has the characteristics of perishability, instability, and stench, and under high temperature and long-term storage conditions, it is very easy to ferment and produce unpleasant odors. Serious environmental pollution. In addition, because the penicillin residue contains residual medium and trace antibiotics, it has a ...

Claims

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Application Information

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IPC IPC(8): C12P5/02C05F5/00
CPCY02A40/20Y02E50/30Y02P20/133Y02W30/40
Inventor 陈平王勇军韦惠民周崇晖吕永涛刘波文杨永会杨彩娟李超
Owner 河北华药环境保护研究所有限公司
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