论文信息 - Water Distribution System Design Under Uncertainties

Water Distribution System Design Under Uncertainties

A chance constrained model is presented for the minimum cost design of water distribution networks. This methodology attempts to account for the uncertainties in required demands, required pressure heads, and pipe roughness coefficients. The optimization problem is formulated as a nonlinear programming model which is solved using a generalized reduced gradient method. Details of the mathematical model formulation are presented along with example applications. Results illustrate that uncertainties in future demands, pressure head requirements, and pipe roughness can have significant effects on the optimal network design and cost.

Larry W. Mays | Yeou-Koung Tung | Ning Duan | Kevin E Lansey

[1] Ian C. Goulter,et al. Optimal urban water distribution design , 1985 .

[2] A. Charnes,et al. A Chance-Constrained Model for Real-Time Control in Research and Development Management , 1966 .

[3] K. Lansey,et al. Reliability‐Based Optimization Model for Water Distribution Systems , 1987 .

[4] Larry W. Mays,et al. OPTIMAL DESIGN OF LARGE SCALE WATER DISTRIBUTION SYSTEMS. , 1987 .

[5] A. Charnes,et al. Deterministic Equivalents for Optimizing and Satisficing under Chance Constraints , 1963 .

[6] U. Shamir,et al. Design of optimal water distribution systems , 1977 .

[7] Larry W. Mays,et al. A Review and Evaluation of Reliability Concepts for Design of Water Distribution Systems. , 1986 .

[8] William D. Hudson,et al. Studies of Distribution System Capacity in Seven Cities , 1966 .

[9] Roland W Jeppson,et al. Analysis of Flow in Pipe Networks , 1976 .