Thermochemical conversion of plant biomass in the energotechnological complex with heat recovery

Authors

Keywords:

thermochemical conversion, biomass, thermodynamic models, recovery, numerical simulation

Abstract

Basic performance principles of the energotechnological complex used for thermochemical conversion of plant biomass with the influence of a magnetic field and high  recovery of spent heat carrier energy have been developed. The concurrent saturation of a spent heat carrier in a loading bunker with the steam from humid biomass aimed at using a certain part of a spent heat carrier, which is clear from oxygen and nitrogen oxide, and moisture in thermochemical recovery has been considered as an important aspect of recuperation processes. A mathematical model has been developed and the results of numerical simulation have been presented for determining the distribution of temperature, velocity and pressure fields in a loading bunker. Prospective assessment of the engineering solutions developed for heat energy recovery of a double-flow spent heat carrier has been conducted.

Author Biographies

Mykola M. Zablodskiy, National University of life and environmental sciences of Ukraine

Doctor of engineerings sciences, professor of Department of Electrical Engineering, Electromechanics and Electrotechnology of Education and Research Institute of Energetics, Automation and Energy Efficiency of National University of Life and Environmental Sciences of UkraineHeroyiv Oborony st., 15, Kyiv, 03041, Ukraine

Andrii V. Zhyltsov, National University of Life and Environmental Sciences of Ukraine

Doctor of Technical Sciences, Head of Department of Electrical Engineering, Electromechanics and Electrotechnology  of Education and Research Institute of Energetics, Automation and Energy Efficiency of National University of Life and Environmental Sciences of UkraineHeroyiv Oborony st., 15, Kyiv, 03041, Ukraine

Ivan P. Radko, National University of Life and Environmental Sciences of Ukraine

Ph.D, associate professor of Department of Electrical Engineering, Electromechanics and Electrotechnology  of Education and Research Institute of Energetics, Automation and Energy Efficiency of National University of Life and Environmental Sciences of UkraineHeroyiv Oborony st., 15, Kyiv, 03041, Ukraine

Viktor I. Trokhaniak, National University of life and environmental sciences of Ukraine

Ph.D, associate professor of Department of Heat and Power Engineering of Education and Research Institute of Energetics, Automation and Energy Efficiency of National University of Life and Environmental Sciences of UkraineHeroyiv Oborony st., 15, Kyiv, 03041, Ukraine

S. Pugalendhi, Tamil Nadu Agricultural University

Ph.D, professor of Department of Renewable Energy Engneering of Agricultural Engineering College and Research Institute of Tamil Nadu Agricultural UniversityCoimbatore, 641 003, Tamil Nadu, India

P. Subramanian, Tamil Nadu Agricultural University

Ph.D, professor of Department of Renewable Energy Engneering of Agricultural Engineering College and Research Institute of Tamil Nadu Agricultural UniversityCoimbatore, 641 003, Tamil Nadu, India

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Published

2021-12-20