PDCFP Unit to Study the Pressure Drop of Compressible Fluids in Pipes

8.8.- 流体管道系统
UNIT TO STUDY THE PRESSURE DROP OF COMPRESSIBLE FLUIDS IN PIPES - PDCFP

創新系統

The Unit to Study the Pressure Drop of Compressible Fluids in Pipes, "PDCFP", allows the study of the compressible fluid pressure drop, for example the air of a compressor, and the different flow conditions (laminar and turbulent) thanks to the distribution of fluid in pipes that have differents sections and fittings.

查看一般說明

扩展

ICAI

交互式计算机辅助教学软件

相關新聞

NEW Fluid Mechanics Course
NEW Fluid Mechanics Course
Are you a teacher or do you work as an engineering researcher? EDIBON offers courses for teachers and #research staff. Take a look at the course of Fluid Mechanics and learn about #fluids properties. #DiscoverEdibon #Engineering.
阅读更多

一般說明

The Unit to Study the Pressure Drop of Compressible Fluids in Pipes, "PDCFP", allows the study of the compressible fluid pressure drop, for example the air of a compressor, and the different flow conditions (laminar and turbulent) thanks to the distribution of fluid in pipes that have differents sections and fittings.

The unit consists of a system of pipes connected through a series of accessories that allow the distribution of air along a network. The pipes have different diameters. Besides, the pipe network has multiple pressure measurement taps to check the effects of the different accessories on the flow of air through the pipeline. The pressure taps along the pipe are used to determine the friction factor of the pipe and the pressure drops. The accessories includes are an elbow, an orifice plate, a narrowing and a widening of the pipe.

練習和指導練習

手册中包含的指导实践练习

  1. Use of manometers to measure pressure drops.
  2. Air flow measurement with orifice plate.
  3. Determination of pressure drops in straight pipes and the friction factor of the pipe.
  4. Determination of pressure drops in elbows and angles and the resistance coefficient of each elbow and angle.
  5. Understanding the use of Reynolds’ numbers.
  6. Determination of the laminar or turbulent flow conditions.
  7. Calculation of the flow rate from the pressure drop in pipes.

質量

售後服務

要求信息