Analysis of parameters important for indirect drying of biomass fuel

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY

Acta Polytechnica Pub Date : 2022-06-30 DOI:10.14311/ap.2022.62.0386

M. Sabatini, J. Havlík, T. Dlouhý

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引用次数: 0

Abstract

This paper focuses on biomass drying for the design and operation of an indirect dryer used in a biomass power plant. Indirect biomass drying is not as well described process as direct drying, especially when used for the preparation of biomass in energy processes, such as combustion or gasification. Therefore, it is necessary to choose a suitable model describing the drying process and evaluate its applicability for this purpose. The aim of this paper is to identify parameters that most significantly affect the indirect drying process of biomass for precise targeting of future experiments. For this purpose, the penetration model was chosen. The penetration model describes indirect drying through 21 parameters. To run a series of experiments focused on all parameters would be time consuming. Therefore, the easier way is to select the most important parameters through a sensitivity analysis, and then perform experiments focused only on the significant parameters The parameters evaluated as significant are the temperature of the heated wall, operating pressure in the drying chamber, surface coverage factor, emissivity of the heated wall, emissivity of the bed, diameter of the particle, and particle surface roughness. Due to the presumption of perfect mixing of the material being dried, stirrer speed is added into important parameters. Based on these findings, it will be possible to reduce the scope of experiments necessary to verify the applicability of the penetration model for the description of indirect biomass drying and the design of dryers for a practical use.

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生物质燃料间接干燥的重要参数分析

本文以生物质干燥为研究对象，对用于生物质发电厂的间接干燥机进行了设计和运行。间接生物质干燥不像直接干燥那样被很好地描述，特别是当用于在能源过程中制备生物质时，例如燃烧或气化。因此，有必要选择一个合适的模型来描述干燥过程，并评估其适用性。本文的目的是确定最显著影响生物质间接干燥过程的参数，以精确定位未来的实验。为此，我们选择了渗透模型。渗透模型通过21个参数来描述间接干燥。对所有的参数进行一系列的实验是非常耗时的。因此，更简单的方法是通过灵敏度分析选择最重要的参数，然后只对重要的参数进行实验，被评价为重要的参数有加热壁的温度、干燥室内的操作压力、表面覆盖系数、加热壁的发射率、床层的发射率、颗粒直径和颗粒表面粗糙度。由于假定被干燥物料的完美混合，搅拌速度被加入到重要参数中。根据这些发现，将有可能减少必要的实验范围，以验证渗透模型在描述间接生物质干燥和设计实际使用的干燥器方面的适用性。

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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来源期刊

Acta Polytechnica ENGINEERING, MULTIDISCIPLINARY-

CiteScore

1.90

自引率

12.50%

发文量

审稿时长

24 weeks

期刊介绍： Acta Polytechnica is a scientific journal published by CTU in Prague. The main title, Acta Polytechnica, is accompanied by the subtitle Journal of Advanced Engineering, which defines the scope of the journal more precisely - Acta Polytechnica covers a wide spectrum of engineering topics, physics and mathematics. Our aim is to be a high-quality multi-disciplinary journal publishing the results of basic research and also applied research. We place emphasis on the quality of all published papers. The journal should also serve as a bridge between basic research in natural sciences and applied research in all technical disciplines. The innovative research results published by young researchers or by postdoctoral fellows, and also the high-quality papers by researchers from the international scientific community, reflect the good position of CTU in the World University Rankings. We hope that you will ﬁnd our journal interesting, and that it will serve as a valuable source of scientiﬁc information.