Design Practice : [ Ссылка ]
Quick Introduction : [ Ссылка ]
To gain insights how the basic equations of local and average gas density and velocity are derived from : [ Ссылка ]
Dense Phase Conveying System : [ Ссылка ]
This documentation provides basic equations to calculate pressure drop of a pneumatic conveying system. Each basic equation consists of parameters/variables such as density, velocity, gas friction factor λGas, solid friction factor λSolid, ratio of particle velocity to gas velocity c/v, solid to gas ratio μ. This documentation will discuss how to determine these variables, wherein we will refer to the published researched papers and literatures from experts in the field of pneumatic conveying system. Though this documentation is within the boundaries of published research papers and literatures, viewers are encouraged to peruse other relevant literatures in addition to the published research papers and literatures mentioned in the references for further exploration to gain more insights in the field of pneumatic conveying system.
This documentation will discuss the parameter/variables such as suction gas density, average gas density, end gas velocity, average gas velocity, local gas pressure and temperature, average gas pressure and temperature, pick-up temperature, gas friction factor λGas, solid friction factor λSolid, ratio of particle velocity to gas velocity c/v, solid to gas ratio μ, relationship between solid friction factor λSolid and impact and solid friction factor λ*Solid, ratio of particle velocity to gas velocity (c/v), Gas Froude No., Particle Froude No., terminal velocity, etc.
If you have questions and suggestions and you need my support in the field of pneumatic conveying system, you can contact me via LinkedIn [ Ссылка ] with your email and I will get in touch with you.
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