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Method for quick start of sludge superhigh temperature anaerobic digestion system with cow dung

An anaerobic digestion system and fast start-up technology, applied in the field of sewage treatment and solid waste recycling, can solve the problems of effective utilization of methanogens, less ultra-high temperature anaerobic digestion, complex system, etc., and achieve the degradation rate and gas production efficiency. High, shorten the start-up period, and ensure the effect of system stability

Active Publication Date: 2016-12-21
TONGJI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] At present, there are few researches on ultra-high temperature anaerobic digestion at home and abroad, and there is no ultra-high temperature anaerobic digestion system for sludge system
At the same time, due to the few types of thermophilic methanogens and the long generation time, it is difficult to cultivate and reproduce
In addition, the content of organic matter in the sludge is high, the system is complex, and the acidification rate is too fast, resulting in a large amount of VFAs that cannot be effectively used by methanogens, resulting in startup failure.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] The effective volume of the anaerobic reactor is 6 L, the external interlayer is fed with tap water, the heating method is electric heating, the temperature control method is material temperature control, and the stirring shaft is a horizontal double-helix stirring shaft.

[0028] (1) Initial enrichment of thermophilic methanogens: Dilute cow dung and dewatered sludge with deionized water to a solid content (TS) dilution of 8%, take 500 g of cow dung and add it to the reactor, press VS : VS (cow manure: dewatered sludge) = 1: 1 Add dewatered sludge, the mass of dehydrated sludge added is 833 g, after charging nitrogen to remove the air above the reactor, keep the reactor airtight, and the temperature of the material is stable at 65 ℃, Run for 12 days. The stirring method is intermittent stirring, the speed is 10 r / min, the stirring is set for 5 minutes, and the stirring is stopped for 5 minutes.

[0029] (2) Secondary enrichment of thermophilic methanogens: After 12 da...

Embodiment 2

[0034] The effective volume of the anaerobic reactor is 9 L, the external interlayer is fed with tap water, the heating method is electric heating, the temperature control method is material temperature control, and the stirring shaft is a horizontal double-helix stirring shaft.

[0035] (1) Initial enrichment of thermophilic methanogens: Dilute cow dung and dewatered sludge with deionized water to a solid content (TS) dilution of 12%, take 1125g of cow dung and add it to the reactor, press VS: VS (cow manure: dewatered sludge) = 1: 1 Add dewatered sludge, the mass of dewatered sludge added is 1875 g, after charging nitrogen to remove the air above the reactor, keep the reactor closed, the temperature of the material is stable at 65 ℃, run 12 days. The stirring method is intermittent stirring, the rotation speed is 15 r / min, the stirring is set for 5 minutes, and the stirring is stopped for 5 minutes.

[0036] (2) Secondary enrichment of thermophilic methane bacteria: 12 days...

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Abstract

Belonging to the field of sewage treatment and solid waste recycling, the invention relates to a method for quick start of a sludge superhigh temperature anaerobic digestion system with cow dung. The basic process includes: (1) using a mixture of cow dung and dehydrated sludge in a VS ratio of 1:1 to conduct thermophilic methanobacteria initial enrichment in a 65DEG C anaerobic reactor; (2) mixing a mixture equal to the amount of that in step (1) with the initially enriched material, and conducting thermophilic methanobacteria secondary enrichment; (3) employing a mixture of cow dung and sludge in a VS ratio of 1:1 to start the reactor, controlling the daily adding amount accounting for 5-8% of the total amount in the reactor, and keeping no discharging in the process; and (4) within 3 SRT time, replacing mixed feeding gradually with pure sludge feeding, thus completing start of the sludge superhigh temperature anaerobic digestion reactor. The gas production rate is recorded every day, and the methane content is tested. When pure sludge is fed, and the methane content reaches more than 50%, the reactor start can be considered smooth. Experiments prove that the method can realize quick start of the sludge superhigh temperature anaerobic digestion system.

Description

technical field [0001] The invention relates to a method for quickly starting a sludge ultra-high temperature anaerobic digestion system by using cow dung, and belongs to the fields of sewage treatment and solid waste recycling. Background technique [0002] Anaerobic digestion technology has attracted much attention due to its ability to recover resources and energy from sludge. Most anaerobic digestion systems operate at moderate (35°C) and high temperature (55°C) conditions. Due to the limitation of hydrolysis of organic particles, the degradation rate of organic matter in mesophilic anaerobic digestion is low, and the required SRT is relatively long. During the process of high-temperature anaerobic digestion, the degradation potential of microorganisms has not been fully released. Therefore, improving the efficiency of anaerobic digestion largely depends on the improvement of its hydrolysis efficiency. The optimal temperature for the growth of hydrolytic acidifying bac...

Claims

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Application Information

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IPC IPC(8): C02F11/04C02F3/28C02F3/34
CPCC02F3/28C02F3/2893C02F3/34C02F11/04C02F2203/002Y02E50/30
Inventor 戴晓虎李宁于春晓戴翎翎董滨
Owner TONGJI UNIV
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