Journal ArticleDOI
The Transient Response of Fluid Lines
TLDR
In this article, a Transient Response Approximation for Noncircular Fluid Transmission Lines J. Fluids Eng (June, 1976) Transient response of Fluid Viscoelastic Lines and Linearized Friction Impedance Models to Complex Fluid Systems J.Abstract:
Related Content Customize your page view by dragging and repositioning the boxes below. Related Journal Articles Filter by Topic > A Transient Response Approximation for Noncircular Fluid Transmission Lines J. Fluids Eng (June, 1976) Transient Response of Fluid Viscoelastic Lines J. Fluids Eng (September, 1982) Application of Linearized Friction Impedance Models to Complex Fluid Systems J. Fluids Eng (June, 1973) [+] View More Related Proceedings Articles Filter by Topic > Thermal Performance Prediction for High Power Processors at High Altitude IMECE2005 (2005) Measurement of Electrical Properties of Sickle Cells From Electrical Impedance of Cell Suspension IMECE2017 (2017) Electrical Impedance Matching of PZT NanoGenerators IDETC/CIE2017 (2017) [+] View More Related eBook Content Plate Exchangers Heat Exchanger Engineering Techniques> Chapter 8 Extended Surfaces Thermal Management of Microelectronic Equipment> Chapter 8 Experimental Heat Transfer to Other Fluids at Sections PDF Email Share Get Citation Get Alerts Some tools below are only available to our subscribers or users with an online account. SEARCH ADVANCED SEARCH Search Journal of Fluids Engineeringread more
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Journal ArticleDOI
On the propagation of sound waves in cylindrical tubes
TL;DR: In this paper, it was shown that the two main parameters governing the propagation of sound waves in gases contained in rigid cylindrical tubes, are the shear wave number, s = R ρ s ω / μ, and the reduced frequency, k = ωR/a 0, and that most of the most significant analytical solutions for the propagation constant, Γ, as given in the literature, can be expressed as simple expressions in terms of these two parameters.
On the propagation of sound waves in cylindrical tubes
TL;DR: In this article, it was shown that the two main parameters governing the propagation of sound waves in gases contained in rigid cylindrical tubes, are the shear wave number, s = R ρ s ω / μ, and the reduced frequency, k = ωR/a 0.
Journal ArticleDOI
Acoustical wave propagation in cylindrical ducts: Transmission line parameter approximations for isothermal and nonisothermal boundary conditions
TL;DR: In this article, approximate expressions for the characteristic impedance and propagation wavenumber for linear acoustic transmission through a gas enclosed in a rigid cylindrical duct are given for the case where the tube walls are nonisothermal.
Journal ArticleDOI
Fluid Transmission Lines—Distributed Parameter Models Part 1: A Review of the State of the Art:
J S Stecki,D C Davis +1 more
TL;DR: A hierarchical classification of linear, distributed parameter models which have been used in the study of rigid, uniform fluid transmission lines is presented to assist in the identification of areas of research where future efforts should be directed and hopefully to prevent needless duplication of research effort.
MonographDOI
Fundamentals of Fluid Power Control
TL;DR: In this article, the authors present a reference text for fluid power control, which is an ideal reference for the practicing engineer and a textbook for advanced courses in fluid power Control, and discuss many exciting challenges facing the fluid power engineer, who now must have a broad skill set.