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BSU Bulletin. Mathematics, Informatics

Bibliographic description:
Stennikov V. A.
,
Барахтенко E. A.
,
Sokolov D. V.
ALGORITHM FOR THE MULTI-LOOP OPTIMIZATION METHOD BASED ON MULTILEVEL DECOMPOSITION OF HEAT SUPPLY SYSTEM MODEL // BSU Bulletin. Mathematics, Informatics. - 2017. №3. . - С. 54-63.
Title:
ALGORITHM FOR THE MULTI-LOOP OPTIMIZATION METHOD BASED ON MULTILEVEL DECOMPOSITION OF HEAT SUPPLY SYSTEM MODEL
Financing:
Работа выполнена при финансовой поддержке Российского научного фонда (грант №17-19-01209)

турной оптимизации на основе многоуровневой декомпозиции модели…
Codes:
DOI: 10.18101/2304-5728-2017-3-54-63UDK: 51-74
Annotation:
The article presents a new effective algorithm for the multi-loop optimiza- tion method, which allows us to solve the problem of determining optimal parameters for systems with a loop configuration. The new algorithm makes it possible to overcome the difficulties associated with their large dimension by hierarchical decomposition of the heat network model. The problem un- der consideration is to find the optimal diameters of pipelines, the parame- ters of pumping stations and the optimal flow distribution in the network. Thus, Energy Systems Institute SB RAS has developed the multi-loop opti- mization method based on the principle of step-by-step improving the solu- tion. An important advantage of this method is that it allows us to flexibly customize the computational procedure to the peculiarities of the simulated system.
Real heat supply systems usually have a hierarchical construction and con- sist of networks that have a loop part and tree branches. This feature of heat supply system construction has been used in development of a new algo- rithm for the multi-loop optimization method, which significantly reduces the number of calculations and counting duration without losing the accu- racy of the obtained results.
Keywords:
heat supply systems; pipeline systems; heat networks; optimiza- tion methods; algorithm; the multi-loop optimization method; the theory of hydraulic circuits; dynamic programming; heat power engineering; multi- level modeling.
List of references: