Thermodynamic analysis of the thermal-technological complex of sugar production: criteria for energy efficiency of an enterprise

Authors

DOI:

https://doi.org/10.15587/1729-4061.2021.235081

Keywords:

sugar production, thermodynamic analysis, entropy method, energy efficiency, resource-saving measures

Abstract

A procedure for analyzing the effectiveness of using fuel and energy resources (FER) in sugar production, based on the developed idealized circuit of the thermal-technological complex (TTC) as the base for comparison was presented. This procedure makes it possible to quantify the level of perfection of existing and proposed thermal circuits, as well as the impact of measures for enhancing energy efficiency on their perfection.

By idealizing technological and energy processes, a hypothetical TTC was synthesized, for which the minimum possible energy and entropy characteristics are determined. Under these conditions, the minimum possible heat consumption for the implementation of technological processes according to the classical heat technology circuit was calculated – 118.40 MJ/t; a "minimum" total increase in entropy from irreversible processes of the HTC – 314.68 kJ/(t·K); a minimum complex magnitude of specific consumption of conventional fuel – 0.8 % to m. b.

The determined characteristics are absolute criteria for the efficiency of sugar production systems, since it is impossible to reach lower values under existing technology, quality of raw materials and other conditions. The content of the criteria of energy efficiency of TTC was stated and the system of coefficients was proposed: coefficient of total energy efficiency of the TTC, coefficient of energy efficiency of the system of heat supply of the technological processes and coefficients of energy efficiency of internal and external structures of the TTC. The proposed criteria provide an objective and thermodynamically correct characteristic of the TTC of different structures.

The presented results of analysis of various measures for increasing the energy efficiency of sugar production show that only a gradual comprehensive reconstruction of an enterprise makes it possible to consistently reduce the FER consumption for technological needs, approaching the boundary values.

Author Biographies

Sergii Samiilenko, National University of Food Technologies

PhD, Associate Professor

Department of Thermal Power and Refrigeration Engineering

Vоlоdymyr Bondar, National University of Food Technologies

PhD, Associate Professor

Department of Thermal Power and Refrigeration Engineering

Volodymyr Piddubnyi, Kyiv National University of Trade and Economics

Doctor of Technical Sciences, Professor

Department of Technologies and Organization of Restaurant Business

Olena Bilyk, National University of Food Technologies

PhD, Associate Professor

Department of Bakery and Confectionery Goods Technologies

Vitaliy Shutyuk, National University of Food Technologies

Doctor of Technical Sciences, Associate Professor

Department of Technology of Canning

Viktor Fedoriv, State Agrarian and Engineering University in Podilia

PhD

Department of Food Production Technologies and Food Standardization

References

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Published

2021-06-30

How to Cite

Samiilenko, S., Bondar, V., Piddubnyi, V., Bilyk, O., Shutyuk, V., & Fedoriv, V. (2021). Thermodynamic analysis of the thermal-technological complex of sugar production: criteria for energy efficiency of an enterprise. Eastern-European Journal of Enterprise Technologies, 3(8(111), 6–13. https://doi.org/10.15587/1729-4061.2021.235081

Issue

Vol. 3 No. 8(111) (2021): Energy-saving technologies and equipment

Section

Energy-saving technologies and equipment

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Copyright (c) 2021 Sergii Samiilenko, Vоlоdymyr Bondar, Volodymyr Piddubnyi, Olena Bilyk, Vitaliy Shutyuk, Viktor Fedoriv

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