Minimization of Axial Stresses and Pressure Surges in Pipes Using Nonlinear Optimization,
El-Ansary, AS, and Contractor DN
, ASME Special Publication PVP, Volume 140, (1988)
AbstractThe control of axial stresses and liquid pressure surges in pipes is an important problem in the design of hydraulic pipe networks. The method of characteristics has been used to solve the transient stresses and pressures in liquid-filled piping systems. Friction is included in the equation of motion. The HZim pressure and maximum stress at any point along the length of the pipe are evaluated for the entire simulation tine. A nonlinear search technique has been developed using the simplex method. The optimal valve closure is sought, that will minimize the maximum pressure and/or stresses. A continuous optimal valve closure policy is specified using spline functions. Numerical examples are presented showing the reduction of the dynamic stress and the dynamic pressure from linear valve closure to optimal valve closure.
Application of a Finite-Element Model to Overland Flow and Channel Flow in Arid Lands,
El-Ansary, Amgad S., and Contractor Dinshaw N.
, Hydrology and Water Resources in Arizona and the Southwest, 1984, Tucson, AZ, (1984)
AbstractA mathematical model to simulate overland and channel flow using the finite element technique was adapted and applied to a small semi-arid rangeland watershed (2,035 acres) in the USDA Walnut Gulch experimental watershed in the Southwestern United States. The Holtan equation was used to estimate precipitation excess, and with the precipitation excess as input, the finite-element technique was used to route overland and channel flow. The program was structured with sufficient flexibility so that effect of land use changes either gradual or sudden, on runoff hydrograph could be estimated. Abstraction losses in the stream channel are accounted for. The simulation model predictions are compared with field data for several storms and the comparisons are satisfactory; however, improvements could be made with additional data on antecedent moisture content and better estimates of abstraction losses. Based on these comparisons, it is felt that the model can be used to estimate runoff hydrographs from ungaged watersheds in semi-arid regions.
OPTIMAL LOCATION AND REGULATION OF FLOW CONTROL VALVES FOR LEAKAGE REDUCTION IN WATER PIPE NETWORKS,
El-Ghandour, HA, and El-Ansary AS
, Journal of Engineering and Applied Science, JEAS, Volume 58, Issue 6, p.479-494, (2011)
AbstractThis paper addresses the problem of minimization of leakage in water distribution networks through the introduction and regulation of Flow Control Valves'FCVs". This problem is formulated as two objectives problem and is solved using multi-objective genetic algorithm. The first objective is to minimize the number of valves" a surrogate for installation valves cost" and the second one is represented by the minimization of the total leakage in the system while achieving the required pressure constraint at each node. The great advantage of mis study is that, in one run, several trade-off optimal solutions are obtained with a different level of compromise between the conflicting two objectives. Each solution from these optimal ones consists of: minimum number of FCVs, the best locations for the obtained number of valves and optimum valves settings, not only at one time period, but at each time period through the day …
Multi-Objective Solution: Pumps Operation Cost and Leakage Reduction,
El-Ghandour, HA, Zidan A. R., Elansary A. S., and El-Gamal M. M.
, Twenty second International Water Technology Conference (IWTC22), International Water Technology Association (IWTA), 2019, Egypt, (2019)
Optimal transient network rehabilitation using multi-objective ant colony optimization algorithm,
El-Ghandour, Hamdy A., and Elansary Amgad S.
, Urban Water Journal, (2018)
AbstractIn this paper, the problem of optimal rehabilitation of water distribution networks (WDNs) for both steady and transient state is investigated. Two objectives are considered in this study: minimizing rehabilitation cost by considering pipe size diameters as decision variables and minimizing the transient impacts by minimizing a surge damage potential factor (SDPF). A multi-objective ant colony optimization (MOACO) model is developed to solve this problem. The developed model is verified using the well-known New York City tunnel network. The application is carried out to modify an existing real WDN in New Cairo district designed in steady-state conditions to cope with the transient condition. The advantage of this study is to produce a set of solutions that help decision makers to identify the suitable approach, while evaluating and aggregating the preferences over multiple objective functions.
Impacts of oxidation pond on groundwater contamination,
Elansary, A. S., and Hamza KI
, Journal of Engineering and Applied Science, JEAS, Volume 46, Issue 4, p.613-628, (1999)
AbstractGroundwater is one of the most important sources of freshwater in Egypt, with specific reference to cities located away from the River Nile. Unlike surface water, groundwater is not directly subject to pollution. However, owing to its generally very low velocity, groundwater once contaminated will often remain so for many generations to come. Because the process of groundwater pollution is generally lengthy and also due to the low velocities of groundwater, contamination is more likely to be discovered after twenty or thirty years from its initiation so numerical models are vital to predict and study the behavior of contaminant movements under different conditions. In the Sadaat city, various natural and waste or sewage water are stored and spread on, or beneath land surface through oxidation ponds, where they are susceptible to percolation. This study presents the effect of the oxidation ponds on groundwater quality …
Valve closure: method for controlling transients,
Elansary, Amgad S., and Contractor Dinshaw N.
, ASME-PUBLICATIONS-PVP, Volume 253, p.143-, (1993)
AbstractOne of the objectives of this study was to reduce the undesirable dynamic pressure oscillation in a simple pipeline due to valve closure and to prevent the occurence of column separation. The second objective was to minimize the maximum dynamic pressure and estimate the best (minimum) time of closure, T*, that results in a pipe stress equal to the maximum allowable stress. The method of characteristics with the time-line interpolation technique was used to solve the transient stresses and pressures in liquid-filled piping system. Frequency-dependent friction was used in the equation of motion for the fluid and the pipe wall. A non-linear optimization technique was utilized to generate the optimum valve closure policy. Maximum and minimum pressure heads resulting from the optimal policy were calculated and compared with those resulting from a uniform valve closure. Plots of the pressure variation at the valve for these two valve closure policies were also generated. Examples are presented to demonstrate the advantage of the optimum valve closure policy over the uniform valve closure policy. The reduction in the maximum dynamic pressure and stress at the valve for different Tc is also presented.
Valve closure: method for controlling transients,
Elansary, A. S., and Contractor DN
, Journal of pressure vessel technology, Volume 116, Issue 4, p.437-442, (1994)
AbstractOne of the objectives of this study was to reduce the undesirable dynamic pressure oscillation that occurs in a simple pipeline due to valve closure and to prevent the occurrence of column separation. This is accomplished by maximizing the minimum pressure in the pipeline. The second objective was to minimize the maximum dynamic pressure, and the third objective was to estimate the best (minimum) time of closure, T* c, that results in a pipe stress equal to the maximum allowable stress. The method of characteristics with the time-line interpolation technique was used to solve the transient stresses and pressures in a liquid-filled piping system. Frequency-dependent friction was used in the equation of motion for the fluid and the pipe wall. A nonlinear optimization technique was utilized to generate the optimum valve closure policy. Maximum and minimum pressure heads resulting from the optimal policy were …
Waterhammer protection for the Toshka pumping system,
Elansary, Amgad Saad
, oint Conference on Water Resource Engineering and Water Resources Planning and Management , 2000, (2000)
AbstractThe Southern Valley Development Project (Toshka) is a major project located 1,000 km south of Cairo, Egypt. The project involves pouring Nile water out off Lake Naser into the desert in order to reclaim parts of it for agricultural use. The Toshka project is considered one of the largest projects in the world with its unique pumping station that delivers 25 x 106 m3/day (∼300 m3/sec). As a result, safety is a major concern and maximum protection measures against waterhammer should be incorporated into the project's design. Waterhammer analysis will provide the required protection that is needed for both pump and pipeline. This paper contains numerical model that simulates pump power failure followed by a valve closure for a pumping system drawing liquid through a single pipeline and discharging it into a reservoir. The method of characteristics was used to solve the transient pressures in a liquid-filled piping …
Hydraulic Calibration of Pipe Network Model Using an Improved Genetic Technique,
Elansary, A. S., Zidan A. R., El-Gamal M. M., and El-Ghandour HA
, Mansoura Engineering Journal, MEJ, Volume 34, Issue 4, p.C1-C21, (2009)
Minimization of stresses and pressure surges,
Elansary, A. S., and Contractor DN
, Journal of Pressure Vessel Technology, Volume 112, Issue 3, p.311-316, (1990)
AbstractThe control of stresses and liquid pressure surges in pipes is an important problem in the design of hydraulic pipe networks. The method of characteristics has been used to solve the transient stresses and pressures in liquid-filled piping systems. The friction force is included in the equation of motion for the fluid and the pipe wall. The maximum pressure and maximum stress at any point along the length of the pipe are evaluated for the entire simulation time. The Von Mises criterion is used for the stress calculation. A nonlinear search technique has been developed using the simplex method. The optimal valve closure is sought, that will minimize the maximum pressure and/or stresses. A continuous optimal valve closure policy is specified using spline functions. Numerical examples are presented showing the reduction of the dynamic stress and the dynamic pressure from linear valve closure to optimal valve closure.
Numerical and experimental investigation of transient pipe flow,
Elansary, Amgad S., Chaudhry Hanif M., and Silva Walter
, Journal of Hydraulic Research, Volume 32, Issue 5, p.689-706, (1994)
AbstractTwo mathematical formulations for the computation of transient flow in piping systems are compared with experimental data. The formulations are: a four-equations fluid structure interaction model (FSI) that includes Poisson coupling, and a two-equations model for the fluid. Both models are solved numericaly using the method of characteristics. A partial-closure of a valve located at an intermediate point in a pipeline is used to create transient flow. The two-equations model computed the maximum pressure peak satisfactorily but the FSI model gave an overall better simulation. An unsteady-friction model, added to the FSI model, did not influence the final results significantly. The experimental procedures followed to obtain the valve characteristics and the pressure history along the pipeline are explained in detail. Excellent numerical results at the valve are obtained when experimental data is used to simulate the time …
Waterhammer Analysis for the New Valley Electrically Driven Pumping Station Project (Toshka),
Elansary, Amgad Saad
, Environmental and Pipeline Engineering, 2000, (2000)
AbstractThe Southern Valley Development Project (Toshka) is a major project located 1,000 km south of Cairo, Egypt. The project involves pouring Nile water out off Lake Naser into the desert in order to reclaim parts of it for agricultural use. The Toshka project is considered one of the largest projects in the world with its unique pumping station that delivers 25 x 106 m3/day (∼300 m3/sec). As a result, safety is a major concern and maximum protection measures against Waterhammer should be incorporated into the project's design. Waterhammer analysis will provide the required protection that is needed for both pump and pipeline. This paper contains numerical model that simulates pump power failure followed by a valve closure for a pumping system drawing liquid through a single pipeline and discharging it into a reservoir. The method of characteristics was used to solve the transient pressures in a liquid-filled piping …