Интегрированная ресурсосберегающая система водопотребления и водоотведения стекольного производства

The methodology of designing of water resource-saving chemical process of glass works has been proposed. The basis of it is thermodynamic approach to analysis and synthesis (designing) of processes (the application of thermodynamic exergy method). The proposed methodology was approved by water chemical process designing of large-scale glass enterprises (production of glass fiber, glass cloth, hardened glass).Предложена методология проектирования водных ресурсосберегающих химико- технологических систем стекольных производств. Основой ее служит термодинамический подход к анализу и синтезу (проектированию) производственных процессов (применение термодинамического эксергетического метода). Предло- женная методология апробирована при проектировании водных химико-технологических систем крупных стекольных предприятий (производств по выпуску стекловолокна, стеклоткани, бронированного стекла)

Особенности эксергетического анализа энергоресурсосберегающих систем водного хозяйства

The specific features of applying the exergy analysis method for the energy resource saving waterworks systems of industrial plants were considered. The analysis of the influence of changes in polluting substance mass loading value on changes in exergy value upon mixing water technological flows was carried out.Рассмотрены особенности применения метода эксергетического анализа энергоресурсо-сбе-регающих систем водного хозяйства промышленных предприятий. Проведен анализ влияния изменения величины массовой нагрузки по загрязняющему веществу на изменение значения эксергии при смешивании водных технологических потоков

Adaptive genetic algorithms used to analyze behavior of complex system

© 2018 Elsevier B.V. In the present study, we consider a complex system whose behavior is characterized by set of various time-dependent factors. Some of these factors can characterize the external influences on the system, whereas other factors contain information generated by system. We demonstrate that time-dependence of these factors can be reproduced by the nonlinear regression model. The concrete form of this regression model is constructed on the basis of the genetic algorithms technique. This allows us to predict a possible behavior of the system and to identify the so-called significant factors that have a significant impact on the behavior of the system. To demonstrate validity of the method, we apply it to analyze the data characterizing a manufacturing company and the meteorological data

The peculiarities of exergy analysis of energy-resource-saving water management systems

The specific features of applying the exergy analysis method for the energy resource saving waterworks systems of industrial plants were considered. The analysis of the influence of changes in polluting substance mass loading value on changes in exergy value upon mixing water technological flows was carried out

Adaptive genetic algorithms used to analyze behavior of complex system

© 2018 Elsevier B.V. In the present study, we consider a complex system whose behavior is characterized by set of various time-dependent factors. Some of these factors can characterize the external influences on the system, whereas other factors contain information generated by system. We demonstrate that time-dependence of these factors can be reproduced by the nonlinear regression model. The concrete form of this regression model is constructed on the basis of the genetic algorithms technique. This allows us to predict a possible behavior of the system and to identify the so-called significant factors that have a significant impact on the behavior of the system. To demonstrate validity of the method, we apply it to analyze the data characterizing a manufacturing company and the meteorological data

Integrated resource-saving waterconsumption and water-disposal system of glass-work

The methodology of designing of water resource-saving chemical process of glass works has been proposed. The basis of it is thermodynamic approach to analysis and synthesis (designing) of processes (the application of thermodynamic exergy method). The proposed methodology was approved by water chemical process designing of large-scale glass enterprises (production of glass fiber, glass cloth, hardened glass)