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 Инд. авторы: Meshechkin V.V., Bykov A.A., Krutikov V.N., Kagan E.S. Заглавие: Distributive Model of Maximum Permissible Emissions of Enterprises into the Atmosphere and Its Application Библ. ссылка: Meshechkin V.V., Bykov A.A., Krutikov V.N., Kagan E.S. Distributive Model of Maximum Permissible Emissions of Enterprises into the Atmosphere and Its Application // IOP Conference Series: Earth and Environmental Science. - 2019. - Vol.224. - Iss. 1. - Art.012019. - ISSN 1755-1307. - EISSN 1755-1315. Внешние системы: DOI: 10.1088/1755-1315/224/1/012019; SCOPUS: 2-s2.0-85062568781; Реферат: eng: The paper discusses the problem of limiting enterprises' emissions of harmful substances into the atmosphere taking into account the air pollution regulations. The cost model for reducing emissions of individual enterprises is formulated. The distributive model of maximum permissible emissions of enterprises is defined as the problem of minimizing the total cost of reducing emissions, the limitations of which are determined by the requirements for air pollution in residential areas. The disadvantages of the distributive model in the form of a linear programming problem are discussed. The presented model, in contrast to the linear programming model, is more resistant to data inaccuracies and provides a proportional distribution of the volume of permissible emissions for enterprises with identical characteristics. The solution of the direct minimization problem with inequality constraints is irrational due to its high dimension. A method for solving the direct problem based on the duality theory is obtained. As a rule, the dual problem has far less dimension. To solve it, the effective subgradient minimization method with stretching-compression of space is used. The distributive model is tested on real data. The example of solving an applied problem is given. © Published under licence by IOP Publishing Ltd. Ключевые слова: Problem solving; Reducing emissions; Pollution regulation; Minimization methods; Linear programming problem; Linear programming models; Inequality constraint; Harmful substances; Direct minimization; Linear programming; Emission control; Cost reduction; Constraint theory; Air pollution; Издано: 2019 Физ. характеристика: 012019 Конференция: Название: All-Russian Research-to-Practice Conference on Ecology and Safety in the Technosphere: Current Problems and Solutions, EST 2018Даты проведения: 2018-11-22 - 2018-11-24