• Title/Summary/Keyword: Coal Silo

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Case Studies on Shock Vibration at Coal Silo Structure of Power Plants (화력발전소 Coal Silo 구조물의 충격성 진동에 대한 사례 연구)

  • Im, Jung-Bin;Lee, Hong-Ki;Son, Sung-Wan;Park, Sang-Gon
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2005.11a
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    • pp.103-106
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    • 2005
  • This paper reviews the dynamic load phenomenon referred to as 'silo quaking', caused shock vibration and loud noise, during gravity discharge in coal silos. Quaking in tall silo is examined using experimental data obtained from a Coal Power Plant and several experimental and numerical investigations available in the published literature. In the experiment, the acceleration was measured at various height on the silo column and floor and by doing so, not only could the variation of the amplitude of the quaking be observed, but also the propagation of waves could clearly be seen. Through an overview of recent research on this subject, it is shown that the current silo quaking is produced by slip-stick friction between the internal wall of silo and the granular material, i.e. coal.

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Structural Safety Analysis and Reinforcement for Weak Area of the Coal Silo Tunnel using Finite Elements Analysis (유한요소해석을 이용한 Coal Silo Tunnel 취약부위의 구조안전성 분석 및 구조보강)

  • Lee, Hyun-Woo;Jung, Sung-Yuen;Song, Se-Arm;Kim, Min-Soo;Kim, Jin-Hyung;Kim, Chul
    • Journal of the Korean Society for Precision Engineering
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    • v.29 no.4
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    • pp.461-468
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    • 2012
  • Silo is a warehouse for storing granular materials such as grain, cement, petroleum compound and coal. When compared to other warehouses, the silo can use space efficiently. The coal silo are consists of silo, tunnel and extractor. Of these, there are not sufficient study and design data on tunnel. It depends heavily upon trial and error method by field engineers with several years of experience. Recently, silos are constructed with a large size, and tunnel becomes to be in danger of severe cracking and collapse by a huge load of coal. So it is necessary to analyze structural safety for tunnel. In this study, the problems of the tunnel are analyzed by field data, and reinforcement of structural weak area using FE analysis has been carried out to design the tunnel satisfying structural safety. From FE Analysis, the reinforced model which does not exceed the yield strength of the material has been proposed.

Utilization of Electrostatic Precipitator as Fly ash Classifier (Fly ash 분급기(分級機)로서 화력발전소(火力發電所) 전기집진기(電氣集塵機)의 활용(利用))

  • Lee, Seung-Heun
    • Resources Recycling
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    • v.19 no.2
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    • pp.3-9
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    • 2010
  • In most coal fired power plants, fly ashes collected from each of hoppers in the electrostatic precipitator are transported and stored in a silo. However the properties of the fly ashes collected from each of hoppers in electrostatic precipitator varies with the distance of the collection field from the boiler. The more distance hopper gets fly ash with larger specific surface area. Therefore, in electrostatic precipitator the hopper itself is expected to have the effect of classifying fly ashes. This study examines the physical, chemical and mineralogical properties of fly ash, collected from each of hoppers attached to an electrostatic precipitator in the coal fired power plant and looks into the possibility of the electrostatic precipitator being used as a classifier. Also, the study reviewed the possibility of acquiring high quality fly ash.