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Efficient reuse treatment method for manned spacecraft urine

The technology of a manned spacecraft and a processing method is applied in the field of efficient reuse and treatment of manned spacecraft urine, which can solve the problems of low processing load and high unit energy consumption by physical and chemical methods, and achieves improvement of biochemical degradability and aeration intensity. Low, long growth cycle effect

Active Publication Date: 2020-12-15
SPACE INSTITUTE OF SOUTHERN CHINA (SHENZHEN)
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Problems solved by technology

[0003] At present, the International Space Station and most of the aircraft adopt physical and chemical methods, such as wet high-temperature catalytic oxidation, distillation and condensation, etc. to treat and reuse urine wastewater, but the physical and chemical methods have low processing load and high unit energy consumption. Feasible, but for manned spacecraft with long-term space operations, such as deep space resident systems, energy consumption issues limit the application of materialization methods

Method used

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Embodiment Construction

[0027] Below in conjunction with the examples, the specific implementation of the present invention will be further described in detail. The following examples are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

[0028] Based on the disadvantages of physical and chemical methods and traditional biological methods for urine wastewater treatment, and the mismatch between these methods and the long-term manned spacecraft urine wastewater treatment requirements, the present invention proposes a high-efficiency and low-consumption anaerobic ammonium oxidation as the The core multi-stage biological treatment process mainly adopts anaerobic hydrolysis in the first stage to convert organic nitrogen into inorganic nitrogen mainly ammonia nitrogen and remove most of COD; the middle stage adopts short-range nitrification / anammox oxidation to convert part of ammonia nitrogen into nitrous acid Then make the residual ammonia nitro...

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Abstract

The invention relates to an efficient urine recycling treatment method for a manned spacecraft. The method comprises the following steps: collecting urine in a container; monitoring the urine in the container, starting to stir the urine in the container when the liquid level of the urine in the container is higher than a urine stirring setting position, and stopping stirring the urine in the container when the liquid level of the urine is lower than the urine stirring setting position; and with the continuous increase of the urine flowing into the container, when the liquid level of the urine in the container further rises to be above the urine stirring setting position and reach a urine output setting position, delivering the urine in the container into an anaerobic biological fluidized bed ABFB for treatment. The invention aims to provide the efficient urine recycling treatment method for the manned spacecraft, and the efficient urine recycling treatment method can realize efficient hydrolysis of high-molecular organic matters and urea under the action of an enzymatic reaction of urease through hydrolytic acidification so as to realize the conversion of high-concentration urine wastewater and effectively improve the biochemical degradation performance of the urine wastewater, and has the advantages of low energy consumption and good treatment effects.

Description

technical field [0001] The invention relates to a high-efficiency recycling treatment method for manned spacecraft urine. Background technique [0002] Traditional heavy urine wastewater from manned spacecraft is rich in high concentrations of ammonia nitrogen and certain organic matter and phosphate. In a closed and controlled system, urine wastewater needs to be treated efficiently and reused to the greatest extent to realize the reuse of water resources and N substances , to ensure the long-term efficient operation of the aircraft and ensure the daily metabolism of the astronauts. [0003] At present, the International Space Station and most of the aircraft adopt physical and chemical methods, such as wet high-temperature catalytic oxidation, distillation and condensation, etc. to treat and reuse urine wastewater, but the physical and chemical methods have low processing load and high unit energy consumption. Feasible, but for manned spacecraft with long-term space opera...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C02F3/30C02F3/34
CPCC02F3/307C02F3/34C02F2101/105C02F2101/16C02F2101/30C02F2101/38C02F2201/001C02F2203/008C02F2209/08C02F2301/046C02F2303/06
Inventor 李婷艾为党张良长
Owner SPACE INSTITUTE OF SOUTHERN CHINA (SHENZHEN)
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