Justification of the layout and operating mode of a vortex-dedusting device as part of heat recovery units in agro-industrial facilities

Mehanization and electrification of agricultural Pub Date : 1900-01-01 DOI:10.37204/0131-2189-2021-13-12

B. Kotov, V. Hryshchenko, S. Hrushetskiy, A. V. Rud

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Abstract

Annotation Purpose. Determination of the efficiency of functioning of the centrifugal dust collector of exhaust ventilation air when supplied to the heat exchanger, and the parameters of the dedusting device. Methods. The specificity of the problem being solved determines the use of an analytical method for research, which allows us to consider the general scheme of the process flow, without specifying the dimensional characteristics. The research technique involves the compilation of differential equations of the motion of particles in a swirling air flow and determination of the trajectory of their movement. Results. The possibility and feasibility of using a direct-flow cyclone for dedusting ventilation emissions from an industrial premises before feeding to a heat recovery unit is considered. To assess the efficiency of dust cleaning, a mathematical description of the dynamics of motion of dust particles in a vortex flow of a direct-flow cyclone has been formulated. Analytical dependences are obtained, according to which the trajectories of motion of dust particles in projections onto the transverse and longitudinal planes of the cyclone body are calculated. The formulas obtained make it possible to determine the design and operating parameters of the dedusting device and to estimate the size of particles, the capture of which is provided by the proposed device. Conclusions 1. A rational layout diagram of a heat recovery system for ventilation air of industrial facilities has been determined, which in series connects a once-through cyclone with an impeller and a tube-plate heat exchanger. 2. A mathematical description of the dynamics of the motion of dust particles in a vortex flow has been formulated and investigated, and calculation formulas have been obtained for calculating the trajectories of motion of particles, which are used to determine the design and operating parameters of a direct-flow dust cleaner. Keywords: ventilation emissions, heat exchanger, dedusting of the air flow, direct-flow cyclone, particle trajectories.

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农用工业设施热回收装置中涡旋除尘装置的布置和运行方式的论证

AnnotationPurpose。测定离心式除尘器在给热交换器提供排风通风时的工作效率，以及除尘装置的参数。方法。要解决的问题的特殊性决定了使用分析方法进行研究，这使我们能够考虑工艺流程的一般方案，而无需指定尺寸特征。该研究技术包括编制旋转气流中粒子运动的微分方程并确定其运动轨迹。考虑了在进入热回收装置之前，使用直接流动旋风器对工业场所通风排放物进行除尘的可能性和可行性。为了评估除尘效率，对直流式旋风机涡流中粉尘颗粒的运动动力学进行了数学描述。得到了解析依赖关系，据此计算了在旋风体的横向和纵向平面上投影的尘埃粒子的运动轨迹。所获得的公式使确定除尘装置的设计和操作参数以及估计颗粒的大小成为可能，所提出的装置提供了颗粒的捕获。Conclusions1。确定了一种工业设施通风空气热回收系统的合理布置图，该系统是由一次穿过旋风器与叶轮和管板式换热器串联而成。本文对涡旋气流中粉尘颗粒运动动力学的数学描述进行了阐述和研究，得到了计算粉尘颗粒运动轨迹的计算公式，用于确定直流除尘器的设计和工作参数。关键词:通风排放，换热器，气流除尘，直流式旋风分离器，颗粒轨迹。

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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Mehanization and electrification of agricultural

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