Microfluidic device and method for optimal control on microbial fertilizer bacterium culture conditions

A microfluidic device and optimized control technology, applied in cell culture and multidisciplinary fields, can solve problems such as single function, low integration and low intelligence

Inactive Publication Date: 2016-05-04
JIANGSU UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] The purpose of the present invention is to propose a microfluidic microfluidic device for optimal control of microbial fertilizer culture conditions in view of the shortcomings of existing microfluidic cell culture devices and methods such as single function, low integration, and low intelligence. The control device and method can optimize the main components of the nutrient solution, optimize the concentration ratio of the main components, temperature, etc., and realize intelligent control and intelligent monitoring

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  • Microfluidic device and method for optimal control on microbial fertilizer bacterium culture conditions
  • Microfluidic device and method for optimal control on microbial fertilizer bacterium culture conditions
  • Microfluidic device and method for optimal control on microbial fertilizer bacterium culture conditions

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Embodiment Construction

[0027] see figure 1 , the microfluidic device used in the present invention for optimal control of microbial fertilizer culture conditions includes a box 1 and a PC 20, the PC 20 is located outside the box 1, and the rest of the components are located inside the box 1. There is a main power supply 12 inside the box body 1 , and the main power supply 12 provides power for the required components inside the box body 1 . Inside the box body 1 are also fixedly placed an air pump 9, a 10-channel constant pressure sampler 6, an object stage 14, a microcontroller 24 and a three-stage microfluidic chip 26, etc. The air pump 9 connects the main power supply 12 with the power cord 13, and energizes the air pump 9 。 The outlet of the air pump 9 is connected to one end of the power source inlet pipe 8, and the other end of the power source inlet pipe 8 is connected to the inlet port of the 10-channel constant pressure sampler 6. An air pressure regulating valve 10 is installed on the po...

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Abstract

The invention discloses a microfluidic device and method for optimal control on microbial fertilizer bacterium culture conditions. The device comprises a case body and a PC (personal computer) positioned outside the case body, wherein a gas pump, a 10-channel constant-pressure sampler, an objective table, a microcontroller and a three-stage microfluidic chip are fixedly arranged in the case body. A complete optimal control method of nutrient solution main component screening, main component concentration proportion optimization and sample introduction parameter and temperature optimization of the optimal proportion nutrient solution is adopted to implement the microfluid intelligent control, temperature control and intelligent monitoring double feedback and also implement microfluid intelligent control, external shape image automatic treatment and interior physiologic metabolite activity electrochemical detection double feedback, thereby directly controlling the multichannel sample introduction mode and sample introduction parameters to perform the microfluidic microbial fertilizer bacterium culture. The method can be used for culture condition optimal control on any microbial fertilizer bacterium under the condition of unknown nutrient solution components.

Description

technical field [0001] The invention belongs to the technical field of cell culture, and in particular relates to a microfluidic chip device and method for optimal control of microbial fertilizer culture conditions, and also relates to computer communication, automated electronic technology, biochemistry and other multidisciplinary fields. Background technique [0002] With the rapid development of modern agriculture, the use of chemical fertilizers is increasing year by year. The traditional organic fertilizer resources are in short supply, the preparation process consumes energy and materials, the fertilizer utilization rate is low, the soil fertility decreases, the yield and quality of crops are greatly reduced, the environmental pollution is serious, and the ecological balance is destroyed. Compared with traditional organic fertilizers, microbial fertilizers have sufficient resources and high utilization rates, which can improve and maintain the transformation of nutrien...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12M1/38C12M1/36C12M1/34
CPCC12M23/16C12M41/12C12M41/36C12M41/48
Inventor 毛罕平左志强杨宁晏盘龙周晓迪施杰
Owner JIANGSU UNIV
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