Author(s): Daniela Tudorica
Journal: International Journal of Computer Science Research and Application
ISSN 2012-9564
Volume: 02;
Issue: 01;
Start page: 56;
Date: 2012;
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Keywords: Pipeline | Transportation process | Modelling | Automated system
ABSTRACT
Pipeline transportation can benefit from a large suite of automation techniques, which can help to monitoring, controlling or optimizing the process. This paper deals with the modeling of the fluid flow in pipelines and presents the results obtained from the model. The software application developed from the model allows designing a pipeline system, computing the properties of a fluid in any point of the pipeline and producing the reports needed for interpreting the results. The model is using the transfer function to convey the dependencies between the process parameters (temperature, pressure, flow) using the computation based on momentum conservation, energy conservation and flow equations from the fluid mechanics and hydraulics.
Journal: International Journal of Computer Science Research and Application
ISSN 2012-9564
Volume: 02;
Issue: 01;
Start page: 56;
Date: 2012;
VIEW PDF
DOWNLOAD PDF Original pageKeywords: Pipeline | Transportation process | Modelling | Automated system
ABSTRACT
Pipeline transportation can benefit from a large suite of automation techniques, which can help to monitoring, controlling or optimizing the process. This paper deals with the modeling of the fluid flow in pipelines and presents the results obtained from the model. The software application developed from the model allows designing a pipeline system, computing the properties of a fluid in any point of the pipeline and producing the reports needed for interpreting the results. The model is using the transfer function to convey the dependencies between the process parameters (temperature, pressure, flow) using the computation based on momentum conservation, energy conservation and flow equations from the fluid mechanics and hydraulics.
