Analysis of Tobacco Drying with Different Energy Sources

PhD Full Professor Darko KIŠ, PhD Brankica SVITLICA, PhD Sanja KALAMBURA, PhD Sun č ica KUJUNDŽI Ć
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Abstract

: Excessive use of fossil fuels has an extremely negative impact on the environment and climate, as it results in the emission of harmful gases into the atmosphere. The goal of this research was to compare the use of solar energy and biomass as an energy source for drying tobacco in relation to natural gas. The research covered the drying of Virginia tobacco leaves with batch dryers, namely: thermogen models that use wood chips ("Model 1"), firewood ("Model 2") and pellets ("Model 3"), one model with natural gas thermogen combined with solar cells ("Model 4") and one thermogen with classic tobacco drying with ground gas ("Model 5"). In the first and third drying phase "Model 1" provides enough energy for drying the tobacco leaf but in the second phase it could not provide the required temperature, so it is necessary to increase the capacity of the combustion chamber. "Model 2" fully meets the requirements of tobacco leaf drying technology. Using pellets according to "Model 3" there were no difficulties and the tobacco was dried with good quality. Energy saving by using solar collectors according to "Model 4" is about 20%. Natural gas drying showed as the most expensive one.
使用不同能源烘干烟草的分析
:过度使用化石燃料会导致有害气体排放到大气中,从而对环境和气候产生极为不利的影响。这项研究的目的是比较太阳能和生物质能作为烟草干燥能源与天然气的使用情况。研究涉及使用分批式干燥机干燥弗吉尼亚烟叶,即:使用木屑("1 号")、木柴("2 号")和颗粒("3 号")的热源模型,一种使用天然气热源并结合太阳能电池的模型("4 号"),以及一种使用地面燃气干燥传统烟草的热源模型("5 号")。在第一和第三烘干阶段,"模型 1 "可提供足够的能量用于烘干烟叶,但在第二阶段,它无法提供所需的温度,因此有必要增加燃烧室的容量。"型号 2 "完全满足烟叶干燥技术的要求。根据 "模型 3 "使用颗粒没有任何困难,烟叶干燥质量良好。根据 "模型 4",使用太阳能集热器可节能约 20%。天然气烘干的成本最高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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