Optimization of water supply systems based on the cost criterion of their life cycle

The transition to information modeling technologies is a logical and inevitable stage in the development of mankind. The computerization processes that occur in all fields of knowledge will inevitably grow into a new quality in quantitative terms. Information modeling technologies involve the development, filling and development of digital counterparts of existing and projected water supply systems, which should cover their entire life cycle, starting with the conception, design, construction, operation and disposal. Digital doubles are not only graphical visualization and representation of an object in the form of 3D models, but also modeling of the modes of operation of an object and its response to changing external conditions. In water supply systems, these are models of the distribution of flows and movement of water in pressure pipelines in static and dynamic operating modes. It should be noted that the transition to digital models makes it possible to significantly increase the number of analyzed variants of the projected water supply system and to consider in detail all possible stages of their life cycle. In this regard, the criterion of the cost of the system lifecycle is effective. However, the application of this criterion requires certain studies and evaluation of the results obtained, especially when solving circuit-structural and circuit-parametric optimization problems, since these tasks provide the greatest economic effect.

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