@misc{BurgschweigerGnaedigSteinbach, author = {Burgschweiger, Jens and Gn{\"a}dig, Bernd and Steinbach, Marc}, title = {Optimization Models for Operative Planning in Drinking Water Networks}, doi = {10.1007/s11081-008-9040-8}, url = {http://nbn-resolving.de/urn:nbn:de:0297-zib-8237}, number = {04-48}, abstract = {The topic of this paper is minimum cost operative planning of pressurized water supply networks over a finite horizon and under reliable demand forecast. Since this is a very hard problem, it is desirable to employ sophisticated mathematical algorithms, which in turn calls for carefully designed models with suitable properties. The paper develops a nonlinear mixed integer model and a nonlinear programming model with favorable properties for gradient-based optimization methods, based on smooth component models for the network elements. In combination with further nonlinear programming techniques (to be reported elsewhere), practically satisfactory near-optimum solutions even for large networks can be generated in acceptable time using standard optimization software on a PC workstation. Such an optimization system is in operation at Berliner Wasserbetriebe.}, language = {en} } @misc{BurgschweigerGnaedigSteinbach, author = {Burgschweiger, Jens and Gn{\"a}dig, Bernd and Steinbach, Marc}, title = {Nonlinear Programming Techniques for Operative Planning in Large Drinking Water Networks}, url = {http://nbn-resolving.de/urn:nbn:de:0297-zib-8657}, number = {05-31}, abstract = {Mathematical decision support for operative planning in water supply systems is highly desirable but leads to very difficult optimization problems. We propose a nonlinear programming approach that yields practically satisfactory operating schedules in acceptable computing time even for large networks. Based on a carefully designed model supporting gradient-based optimization algorithms, this approach employs a special initialization strategy for convergence acceleration, special minimum up and down time constraints together with pump aggregation to handle switching decisions, and several network reduction techniques for further speed-up. Results for selected application scenarios at Berliner Wasserbetriebe demonstrate the success of the approach.}, language = {en} } @misc{BurgschweigerGnaedigSteinbach, author = {Burgschweiger, Jens and Gn{\"a}dig, Bernd and Steinbach, Marc}, title = {Optimierte Tagesplanung im Berliner Trinkwassernetz}, url = {http://nbn-resolving.de/urn:nbn:de:0297-zib-8668}, number = {05-32}, abstract = {Der Artikel beschreibt ein mathematisches Optimierungssystem zur Betriebsplanung in großen Wassernetzen, das bei den Berliner Wasserbetrieben eingesetzt wird. F{\"u}r das Berliner Versorgungsnetz werden Optimierungsergebnisse vorgestellt.}, language = {de} }