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自由旋片除雾器脱水性能实验研究 被引量:2
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作者 何明礼 刘娟 +3 位作者 盖龄同 向晓东 魏智 宋树帜 《环境工程学报》 CAS CSCD 北大核心 2010年第8期1867-1870,共4页
提出一种新型除雾装置——自由旋片除雾器。在实验室条件下,从除雾效率、压力损失两方面研究了自由旋片除雾器的性能。实验结果表明,风速在11 m/s左右时,自由旋片除雾器的除雾效率达到最大值。对比实验发现,自由旋片除雾器的除雾效率远... 提出一种新型除雾装置——自由旋片除雾器。在实验室条件下,从除雾效率、压力损失两方面研究了自由旋片除雾器的性能。实验结果表明,风速在11 m/s左右时,自由旋片除雾器的除雾效率达到最大值。对比实验发现,自由旋片除雾器的除雾效率远高于固定叶片除雾器的除雾效率,二者的除雾效率最大值相差约10%。自由旋片除雾器的除雾效率变化曲线在6~13 m/s的流速范围内相当平滑,说明自由旋片除雾器对含雾气流流速的波动有很好的适应性。另外,增加液气比和雾滴粒径会提高自由旋片除雾器的除雾效率。自由旋片除雾器压力损失系数仅为4.3,而固定叶片除雾器压力损失系数为6.6。所以,自由旋片除雾器的阻力特性远优于固定叶片除雾器。 展开更多
关键词 除雾器 自由旋片 除雾效率 液气比 压力损失
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自由旋片除雾器内气液两相流场数值模拟
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作者 何明礼 向晓东 刘娟 《环境工程学报》 CAS CSCD 北大核心 2010年第11期2635-2640,共6页
为了给自由旋片除雾器结构优化设计提供理论依据,运用CAD软件建立了自由旋片除雾器的简化三维模型,运用RNGk-ε湍流模型模拟了自由旋片除雾器内部三维两相流场,得到压力场、速度场分布。结果表明,叶轮轮毂前形成局部高压区,轮毂后形成... 为了给自由旋片除雾器结构优化设计提供理论依据,运用CAD软件建立了自由旋片除雾器的简化三维模型,运用RNGk-ε湍流模型模拟了自由旋片除雾器内部三维两相流场,得到压力场、速度场分布。结果表明,叶轮轮毂前形成局部高压区,轮毂后形成局部低压区,轮毂后有回流存在。叶轮后气流的旋转运动是由旋片的仰角引起的,而与叶轮旋转无关。当入口速度在11.5 m/s时,旋片后的最大切向速度达到20 m/s。这一现象有利于气液离心分离的实现。叶轮迎风面大部分气流的运动方向与叶轮旋转方向相反,背风面气流运动较复杂,在靠近旋片中心处存在局部涡流。对液滴相运动轨迹模拟表明,自由旋片除雾器能有效实现气液分离。 展开更多
关键词 自由旋片 数值模拟 流场 气液分离
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Circular Disc Blade Considerations in Soil Force Prediction Modelling
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作者 Ali Khosravani Goshtasb Jack Desbiolles John Fielke 《Journal of Agricultural Science and Technology(A)》 2014年第5期371-383,共13页
Previous soil-disc force prediction models have considered spherical and concave blades, as used on disc ploughs and harrows, with many simplifying assumptions. This study proposes an approach applying the fundamental... Previous soil-disc force prediction models have considered spherical and concave blades, as used on disc ploughs and harrows, with many simplifying assumptions. This study proposes an approach applying the fundamental equation of earth moving mechanics for calculating the soil passive reaction acting on a rotating fiat disc blade as used on a zero-till single disc seeder. The study considers the effects of disc variable depth of cut, sweep and tilt angles, free rotation and a scrubbing reaction at the beveled edge. This paper outlines the modeling approach and prediction results for a fixed circular blade operating at 90° sweep angle over a range of speeds and at two tilt angles. To account for the varying depth across the circular disc shape width, elemental wide blade force reactions acting on wide blade segments of elemental width were integrated across the disc working width. By including inertia forces due to speed as well as additional bulldozing forces due to the loose soil accumulation in front of the blade the draught and upward vertical forces acting on the vertical disc blade were predicted with a deviation of 6%-19% and 1.5%-14% from measured data, respectively. The model was able to predict the effect of increasing the tilt angle from 0° to 20° on reducing both draught and upward vertical forces. Further development and validation of the model will be described in subsequent papers, reflecting a step by step approach of increasing complexity to model a disc blade as used on a zero-till single disc seeding system. 展开更多
关键词 Zero till force prediction soil-disc interaction bulldozing wide blade theory.
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