Modeling the Behavior of Flow Regulating Devices in Water Distribution Systems Using Constrained Nonlinear Programming

Currently the modeling of check valves and flow control valves in water distribution systems is based on heuristics intermixed with solving the set of nonlinear equations governing flow in the network. At the beginning of a simulation, the operating status of these valves is not known and must be as...

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Bibliographic Details
Published inJournal of hydraulic engineering (New York, N.Y.) Vol. 135; no. 11; pp. 970 - 982
Main Authors Deuerlein, Jochen W, Simpson, Angus R, Dempe, Stephan
Format Journal Article
LanguageEnglish
Published Reston, VA American Society of Civil Engineers 01.11.2009
Subjects
Applied sciences
Buildings. Public works
Computation methods. Tables. Charts
Distribution. Storage
Exact sciences and technology
Structural analysis. Stresses
TECHNICAL PAPERS
Water supply. Pipings. Water treatment
Computer programming
Hydraulic model
Check
Programming
Water distribution
Modeling
Steady state
Case study
Flow(fluid)
Formulation
Hydraulic models
Analytical method
Flow control
Variational calculus
Water distribution system
Mathematical model
Computing method
Distribution system
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Summary:Currently the modeling of check valves and flow control valves in water distribution systems is based on heuristics intermixed with solving the set of nonlinear equations governing flow in the network. At the beginning of a simulation, the operating status of these valves is not known and must be assumed. The system is then solved. The status of the check valves and flow control valves are then changed to try to determine their correct operating status, at times leading to incorrect solutions even for simple systems. This paper proposes an entirely different approach. Content and co-content theory is used to define conditions that guarantee the existence and uniqueness of the solution. The work here focuses solely on flow control devices with a defined head discharge versus head loss relationship. A new modeling approach for water distribution systems based on subdifferential analysis that deals with the nondifferentiable flow versus head relationships is proposed in this paper. The water distribution equations are solved as a constrained nonlinear programming problem based on the content model where the Lagrangian multipliers have important physical meanings. This new method gives correct solutions by dealing appropriately with inequality and equality constraints imposed by the presence of the flow regulating devices (check valves, flow control valves, and temporarily closed isolating valves). An example network is used to illustrate the concepts.
ISSN:0733-9429
1943-7900
DOI:10.1061/(ASCE)HY.1943-7900.0000108