MODELING AND COMPUTATION OF COMPUTATIONAL FLUID DYNAMICS FOR WATER PRODUCTION OF INTERNAL PRESSURE SERIES MBR SYSTEM - Info and Reading Options
By Shan Gao, Chunqing Li
"MODELING AND COMPUTATION OF COMPUTATIONAL FLUID DYNAMICS FOR WATER PRODUCTION OF INTERNAL PRESSURE SERIES MBR SYSTEM" and the language of the book is english-handwritten.
“MODELING AND COMPUTATION OF COMPUTATIONAL FLUID DYNAMICS FOR WATER PRODUCTION OF INTERNAL PRESSURE SERIES MBR SYSTEM” Metadata:
- Title: ➤ MODELING AND COMPUTATION OF COMPUTATIONAL FLUID DYNAMICS FOR WATER PRODUCTION OF INTERNAL PRESSURE SERIES MBR SYSTEM
- Author: Shan Gao, Chunqing Li
- Language: english-handwritten
“MODELING AND COMPUTATION OF COMPUTATIONAL FLUID DYNAMICS FOR WATER PRODUCTION OF INTERNAL PRESSURE SERIES MBR SYSTEM” Subjects and Themes:
- Subjects: Computational Fluid Dynamics - Membrane Bio-Reactor - Internal Pressure Type - Tandem - Water Production
Edition Identifiers:
- Internet Archive ID: ➤ httpsieasrj.comjournalsindex.phpieasrjarticleview167
AI-generated Review of “MODELING AND COMPUTATION OF COMPUTATIONAL FLUID DYNAMICS FOR WATER PRODUCTION OF INTERNAL PRESSURE SERIES MBR SYSTEM”:
"MODELING AND COMPUTATION OF COMPUTATIONAL FLUID DYNAMICS FOR WATER PRODUCTION OF INTERNAL PRESSURE SERIES MBR SYSTEM" Description:
The Internet Archive:
<span style="color:rgba(0,0,0,0.87);font-family:'Noto Sans', '-apple-system', BlinkMacSystemFont, 'Segoe UI', Roboto, 'Oxygen-Sans', Ubuntu, Cantarell, 'Helvetica Neue', sans-serif;font-size:14px;background-color:rgb(255,255,255);">In the Membrane Bio-Reactor waste-water treatment system,The water production of membrane modules is an important parameter to measure the working efficiency of MBR system, while the internal pressure series MBR is a common membrane module connection method. Therefore, the calculation and analysis of the water production of internal pressure series MBR system by computational fluid dynamics is carried out. In the analysis process, the geometric model of the internal pressure series MBR system is first established by the CFD preprocessor and the mesh is divided. Then the CFD solver is used to calculate the water production of the model. Finally, the CFD post processor is used to present the calculation results in an image. On this basis, this paper has carried out a large number of experimental analysis. In the analysis process, this paper compares the calculation results of the solver with the actual operating system results of MBR. The comparison results show that the calculation results of the solver are basically consistent with the actual water production of membrane modules, and have higher calculation accuracy. It achieves the purpose of accurately calculating the water production of membrane modules, and solves the problem of measuring the working efficiency of MBR system by calculating the water production of membrane modules. which has certain reference value for MBR engineering design and research.</span>
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