Abstract
This article describes a systematic approach in assessing the potential of energy saving, based on the universal model of technocenosis. A rank analysis of retrospective data on energy consumption was carried out, a mathematical model of power consumption was obtained. The procedures of interval estimation of the rank parametric distribution are carried out and the objects of establishment needs are determined, which power consumption is not included in the boundaries of statistical norms. With the help of cluster procedures, technocenological norms of power consumption are calculated. Based on the theory of structural and topological dynamics of the rank parametric distribution, the predicted power consumption is determined. The energy saving potential has been calculated and the objects of economic needs have been identified, where the implementation of measures aimed at energy saving is first necessary.
Highlights
Establishment needs objects (ENO) – are auxiliary and non-industrial divisions belonging to power plants and electric grid enterprises, which are necessary for servicing the main production, but not directly related to the technological processes of producing heat and electrical energy at power plants, as well as with the transmission and distribution of these types of energy.The task of servicing the activities of the enterprise of electrical networks is diversified, which determines a wide range and a considerable number of used ENOs
Conclusion a systematic approach was considered in assessing the potential for energy saving, based on the universal model of technocenosis
A ranking analysis of the retrospective data on energy consumption was carried out, which made it possible to obtain a mathematical model of power consumption
Summary
Establishment needs objects (ENO) – are auxiliary and non-industrial divisions belonging to power plants and electric grid enterprises, which are necessary for servicing the main production, but not directly related to the technological processes of producing heat and electrical energy at power plants, as well as with the transmission and distribution of these types of energy. To obtain the maximum economic effect from the applying of energy saving measures, it is possible and relevant to consider the totality of objects as a system when determining the potential for energy saving. This requirement is satisfied by the technocenological approach, which takes into account the system properties of the infrastructure object by using the apparatus of non-Gaussian distributions used to describe samples, whose elements are joined by weak links. The main tool of this approach is the rank analysis
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