| Article ID: | iaor19931416 |
| Country: | United Kingdom |
| Volume: | 19 |
| Issue: | 2 |
| Start Page Number: | 131 |
| End Page Number: | 151 |
| Publication Date: | Apr 1992 |
| Journal: | Engineering Optimization |
| Authors: | Zhong Quinghui, Lansey Kevin, E. |
| Keywords: | supply, control, lagrange multipliers, programming: nonlinear, developing countries |
A temporal decomposition approach is presented in this paper to solve a long term deterministic model for optimal operations of multiple reservoir systems. Through Lagrangian relaxation, the long term problem is decomposed into a number of smaller subproblems. Each of the subproblems can be solved efficiently using standard NLP codes. Coordination between subproblems is achieved in a Lagrangian term. Overall convergence is attained through an iterative process by updating the Lagrangian multipliers. A theoretical proof of global convergence is given assuming a concave objective function. The method has been applied to a nine-reservoir system in central China.