Wave-plan analysis of unsteady flow in closed conduits: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Wave-plan analysis of unsteady flow in closed conduits

Wood, D.J. / Dorsch, R.G. / Lightner, C.

Analytical method for computing unsteady flow conditions in liquid-filled fluid systems; wave plan method incorporates distributed parameter and nonlinear effects including viscous resistance; wave plan is essentially solution synthesized from effects of incremental step pressure pulses; pressure pulses are generated because of incremental flow-rate changes in hydraulic system, including mechanical motion of system structure; pressure pulses propagate at sonic velocity and are partly transmitted and reflected at each discontinuity; velocity change caused by each pulse is obtained from Joukowsky relationship; pressure and velocity time histories at any point are obtained by timewise summation of incremental pressure pulses.

Access

Check availability in my library

Page navigation

Document information

Export, share and cite

Wave-plan analysis of unsteady flow in closed conduits

Wood, D.J. / Dorsch, R.G. / Lightner, C.

Analytical method for computing unsteady flow conditions in liquid-filled fluid systems; wave plan method incorporates distributed parameter and nonlinear effects including viscous resistance; wave plan is essentially solution synthesized from effects of incremental step pressure pulses; pressure pulses are generated because of incremental flow-rate changes in hydraulic system, including mechanical motion of system structure; pressure pulses propagate at sonic velocity and are partly transmitted and reflected at each discontinuity; velocity change caused by each pulse is obtained from Joukowsky relationship; pressure and velocity time histories at any point are obtained by timewise summation of incremental pressure pulses.

Wave-plan analysis of unsteady flow in closed conduits

Wood, D.J. / Dorsch, R.G. / Lightner, C.

Analytical method for computing unsteady flow conditions in liquid-filled fluid systems; wave plan method incorporates distributed parameter and nonlinear effects including viscous resistance; wave plan is essentially solution synthesized from effects of incremental step pressure pulses; pressure pulses are generated because of incremental flow-rate changes in hydraulic system, including mechanical motion of system structure; pressure pulses propagate at sonic velocity and are partly transmitted and reflected at each discontinuity; velocity change caused by each pulse is obtained from Joukowsky relationship; pressure and velocity time histories at any point are obtained by timewise summation of incremental pressure pulses.

Access

Check availability in my library

Page navigation

Document information

Export, share and cite

Document information

Title:

Wave-plan analysis of unsteady flow in closed conduits

Additional title:

ASCE -- Proc (J Hydraulics Div)

Contributors:

Wood, D.J. (author) / Dorsch, R.G. (author) / Lightner, C. (author)

Published in:

American Society of Civil Engineers Proceedings, Journal of the Hydraulics Division ; 92

Publication date:

1966

Size:

28 pages

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

© Metadata Copyright Elsevier B. V. All rights reserved.

Similar titles

Wave-Plan Analysis of Unsteady Flow in Closed Conduits

Wood, Don J. / Dorsch, Robert G. / Lightner, Charlene | ASCE | 2021

Discussion of “Wave-Plan Analysis of Unsteady Flow in Closed Conduits”

Auslander, David M. / Paynter, Henry M. | ASCE | 2021

Closure to “Wave-Plan Analysis of Unsteady Flow in Closed Conduits”

Wood, Don J. / Dorsch, Robert G. / Lightner, Charlene | ASCE | 2021

Discussion of “Wave-Plan Analysis of Unsteady Flow in Closed Conduits”

Streeter, Victor L. / Wylie, E. Benjamin | ASCE | 2021

Unsteady Flow in Conduits with Simple Surge Tanks

Taylor, E. H. / Reisman, Arnold / Ward, Jack W. | ASCE | 2021