共查询到18条相似文献,搜索用时 62 毫秒
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设计了实现液固外循环流化床中颗粒正常循环的关键部件——喷嘴,利用CCD图像采集分析系统,获得了其换热管束内固体颗粒的分布情况,考察了液体流量、口径比、喷嘴安装位置、颗粒直径、颗粒初始加入量以及液体黏度对液固外循环流化床换热器管束内含固体积分数的影响。结果表明:口径比及喷嘴安装位置对提高管束内的含固体积分数都存在一个最佳值,颗粒直径、颗粒初始加入量以及液体黏度对管束内含固体积分数也具有较大的影响,同时还通过对实验数据的综合分析,得到了喷嘴在最佳安装位置下液固外循环流化床内含固体积分数的经验关联式。 相似文献
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起始外循环流化速度是影响气液固外循环流化床正常操作的重要参数之一。提出了以流化床内压差随表观液速的变化阈值来确定流化床起始外循环流化速度的方法。通过实验研究,考察了颗粒直径、颗粒体积分率和表观气速等操作参数,对强制循环条件下流化床起始外循环流化速度的影响。结果表明,液固流化床起始外循环流化速度远大于单个颗粒终端速度,与颗粒体积分率、颗粒平均直径成正比;强制循环时,颗粒体积分率较小的情况下,加入气体后的起始外循环流化速度比液固两相起始外循环流化速度要大,颗粒体积分率较大时,几乎与液固两相相同。 相似文献
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在二维中试循环流化床中使用组合式固液分布器进行实验,考察下管箱表观液速,主分布器内径、主分布器下插深度,颗粒加入量和粒径对径向管束固含率的影响.结果表明:固含率随主分布器内径、颗粒加入量和下管箱表观液速的增加而增大,随粒径的增大而减小,随主分布器下插深度几乎没有变化;固含率不均匀度随颗粒粒径的增大而增大,随下管箱表观液速、颗粒加入量,主分布器下插深度增加而减小,但达到一定深度后,不均匀度不再随之减小,随主分布器内径几乎没有变化.在综合考虑各影响因素的基础上,提出计算固含率的经验公式,并用实验数据拟合了公式中的参数. 相似文献
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为促进流化床换热防垢节能技术在水平双管程换热器中的应用,设计和构建了一套冷模透明水平双管程液-固循环流化床换热装置。以水和聚甲醛颗粒为工质,利用电荷耦合器件(CCD)图像测量和处理系统及压差传感器,考察了颗粒加入量(0.50%~1.25%)和循环流量(6~11 m3·h-1)对颗粒分布和压降的影响。结果表明:上管程的颗粒分布更为均匀,下管程内存在“死区”,上、下管程的固含率均沿重力方向增大。上管程的颗粒分布不均匀度随循环流量的增加而波动,下管程则先迅速增大再逐渐减小。上、下管程的颗粒分布不均匀度均随颗粒加入量的增加而波动。压降比率随循环流量和颗粒加入量的增加而波动,在实验范围内的最大值为18.3%。绘制了操作参数对颗粒分布和压降影响的三维图,以确定较适宜的操作参数范围。 相似文献
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Gaurav Agarwal Brian Lattimer Srinath Ekkad Uri Vandsburger 《American Institute of Chemical Engineers》2012,58(10):3003-3015
Particle image velocimetry was used to investigate the evolution of multiple inlet gas jets located at the distributor base of a two‐dimensional fluidized bed setup. Results were used to estimate the solid circulation rate of the fluidized bed as well as particle‐entrainment into the individual jets. The effects of fluidization velocity, orifice diameter, orifice pitch, particle diameter, and particle density were studied. It was determined from this study that the solid circulation rate linearly increased with an increase in the fluidization velocity until the multiple jet system transitioned from isolated to an interacting system. In the interacting system of jets, the solid circulation increased with fluidization velocity but at a much lower rate. For multiple jet systems, this phenomenon may indicate the presence of an optimum operating condition with high circulation rate and low air input in the bed. © 2011 American Institute of Chemical Engineers AIChE J, 58: 3003–3015, 2012 相似文献
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The prediction of minimum fluidization velocity for vibrated fluidized bed was performed. The Geldart group A and C particles were used as the fluidizing particles. The method based on Ergun equation was used to predict the minimum fluidization velocity. The calculated results were compared with the experimental data.The calculated results of minimum fluidization velocity are in good agreement with experimental data for Geldart group A particles. For group C particles, the difference between the calculated results and experimental data is large because of the formation of agglomerates. In this case, the determination of agglomerate diameter is considered to be necessary to predict the minimum fluidization velocity. 相似文献
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在底部直径为120 mm的锥型流化床中,以玻璃珠为流化颗粒,过热蒸汽为流化介质,研究了固体颗粒在过热蒸汽流化床中的流化特性,考察了操作温度和压力对临界流化速度(umf)的影响.结果表明,过热蒸汽流化床的流化行为与热空气相似,临界流化速度(umf)随床层温度的升高而减小,随床内压力的增大而减小;在相同温度条件下,过热蒸汽流化床的临界流化速度比热空气大. 相似文献
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在内径3~20 mm的4个气-固微型流化床中,分别考察了A类和B类两种类型颗粒的流化特性,同时研究了床几何结构、操作条件、物相性质等各因素对其最小流化速度的影响.结果 表明,气-固微型流化床中的床层压降特性与颗粒类型密切相关,不同的流动状态下两种类型颗粒的流动特性存在显著地差异.在固定床阶段,与B类颗粒相比,A类颗粒与... 相似文献
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The pressure fluctuations in a gas—solid fluidized bed were measured by a differential pressure transducer (DPT). It was found from this study that the measuring height on the axis of a bed was a very important factor for the determination of minimum fluidization velocity from the linear relationship between standard deviation and air velocity. That is, the linearity between two parameters is strongly dependent on the distance above the distributor, because the pressure fluctuations are influenced by the jet formed at the distributor and the bubble coalescence, which depend on particle size and air velocity. 相似文献
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Experimental and numerical research for fluidization behaviors in a gas–solid acoustic fluidized bed
Changqing Cao Shuqin Dong Yanan Zhao Qingjie Guo 《American Institute of Chemical Engineers》2010,56(7):1726-1736
The effects of sound assistance on fluidization behaviors were systematically investigated in a gas–solid acoustic fluidized bed. A model modified from Syamlal–O'Brien drag model was established. The original solid momentum equation was developed and an acoustic model was also proposed. The radial particle volume fraction, axial root‐mean‐square of bed pressure drop, granular temperature, and particle velocity in gas–solid acoustic fluidized bed were simulated using computational fluid dynamics (CFD) code Fluent 6.2. The results showed that radial particle volume fraction increased using modified drag model compared with that using the original one. Radial particle volume fraction was revealed as a parabolic concentration profile. Axial particle volume fraction decreased with the increasing bed height. The granular temperature increased with increasing sound pressure level. It showed that simulation values using CFD code Fluent 6.2 were in agreement with the experimental data. © 2009 American Institute of Chemical Engineers AIChE J, 2010 相似文献