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超声波强化一次污泥沉降与脱水性能的研究 总被引:13,自引:0,他引:13
本文就超声波处理对一次污泥强化沉降与脱水性能进行了研究。对污泥性质中的SV、滤饼含水率、比阻、粘度等进行了分析。分析表明短时间的超声作用可以提高污泥脱水和沉降性能,超声处理7s后滤饼含水率降低2.9%;超声10s时粘度和比阻值最小,比原污泥分别减小29.4%和24.2%;15s后污泥沉降速率是原污泥的3.7倍。如投加絮凝剂,投加量为0.054g/L时污泥沉降速率最快,最终污泥体积为84.5%,粘度值最低,为84.5mpa·s。加入超声10s作用后,最佳絮凝剂投加量为0.027g/L,且最终污泥体积比单独投加0.054g/L时减小4%,粘度值降低14.8%。超声波与絮凝剂的联用可以改善污泥脱水性能和沉降性能,减小絮凝剂的量达一半以上。 相似文献
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显微荧光光谱已经成为流体包裹体系统测试分析中较为成熟的一项技术,可用于区分不同类型的原油与油包裹体,从而为研究含油气盆地的油气成藏历史提供重要依据。不同来源的原油在运聚的过程中可能会发生不同程度的混合作用,为了有效识别这一类地质过程,基于不同比例的原油配比混合实验,研究原油混合后的显微荧光光谱的具体变化特征。结果表明: 原油混源使得显微荧光光谱参数λmax,QF-535和CIE-XY发生了非线性变化,具体表现为混源后原油的荧光光谱参数均介于两个端元油之间,混源油中某一端元油的比例越大,其荧光光谱参数越靠近这一端元油。在CIE-XY色品图中主要表现为非线性渐变的荧光颜色特征。光谱谱形的改变主要表现为谱形由“单峰型”变为“双峰型”和“三峰型”,同时主峰波长和次峰波长保留了两个端元油的信息;QF-535与混源比例可建立曲线用来定量计算两端元油的相对贡献度。综合上述荧光光谱参数和谱形的变化特征,利用原油和油包裹体的显微荧光分析,识别出东海盆地西湖凹陷A气田有三种不同类型原油充注,中间还发生了一次原油混源作用,即蓝绿色荧光原油和黄色荧光原油发生了混合,定量计算其混源程度为介于47%~55%。 相似文献
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A cylindrical standing wave ultrasonic motor using bending vibration transducer was proposed in this paper. The proposed stator contains a cylinder and a bending vibration transducer. The two combining sites between the cylinder and the transducer locate at the adjacent wave loops of bending vibration of the transducer and have a distance that equal to the half wave length of bending standing wave excited in the cylinder. Thus, the bending mode of the cylinder can be excited by the bending vibration of the transducer. Two circular cone type rotors are pressed in contact to the end rims of the teeth, and the preload between the rotors and stator is accomplished by a spring and nut system. The working principle of the proposed motor was analyzed. The motion trajectories of teeth were deduced. The stator was designed and analyzed with FEM. A prototype motor was fabricated and measured. Typical output of the prototype is no-load speed of 165 rpm and maximum torque of 0.45 N m at an exciting voltage of 200 Vrms. 相似文献
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Dual-perspective high-speed imaging and acoustic detection is used to characterise cavitation activity at the tip of a commercial 20 kHz (f0) ultrasonic horn, over 2 s sonications across the range of input powers available (20 – 100%). Imaging at 1 × 105 frames per second (fps) captures cavitation-bubble cluster oscillation at the horn-tip for the duration of the sonication. Shadowgraphic imaging at 2 Mfps, from an orthogonal perspective, probes cluster collapse and shock wave generation at higher temporal resolution, facilitating direct correlation of features within the acoustic emission data generated by the bubble activity. f0/m subharmonic collapses of the primary cavitation cluster directly beneath the tip, with m increasing through integer values at increasing input powers, are studied. Shock waves generated by periodic primary cluster collapses dominate the non-linear emissions of the cavitation noise spectra. Transitional input powers for which the value of m is indistinct, are identified. Overall shock wave content within the emission signals collected during sonications at transitional input powers are reduced, relative to input powers with distinct m. The findings are relevant for the optimisation of applications such as sonochemistry, known to be mediated by bubble collapse phenomena. 相似文献
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Ultrasonic irradiation of 430 kHz, which induces both the chemical effect of pyrolysis and the physical effect of atomization, was carried out to achieve highly effective decomposition of organic substances in water with UV254 irradiation and H2O2 addition. To investigate the influence of physicochemical properties of the substrate on the degradation rate, three different aldehydes, namely, formaldehyde, acetaldehyde, and benzaldehyde, were selected as model substrates. Upon ultrasonic irradiation alone, the removal ratio of the hydrophobic substrate benzaldehyde reached 100% after 120 min, whereas the removal ratios of the hydrophilic substrates formaldehyde and acetaldehyde were only 21.1% and 53.0%, respectively. By combining ultrasonic atomization and UV254 irradiation, formaldehyde and acetaldehyde underwent effective gas-phase decomposition on the surfaces of the mist particles. Photolysis by UV254 irradiation mainly affected for the decomposition of aldehydes on the mist surface rather than the reaction of hydroxyl radicals derived from H2O2 made by water sonolysis. However, the addition of H2O2 effectively improved the decomposition and mineralization rates for both hydrophilic and hydrophobic aldehydes owing to the generation of hydroxyl radicals on the surfaces of the mist particles, which greatly contributed to the gas-phase decomposition. Consequently, the effective decomposition of organic pollutants was achieved regardless of their physicochemical properties in aqueous media. 相似文献
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设计了一种大负载超声振动磨削系统,超声系统由换能器、圆柱圆锥形变幅杆和轮辐式砂轮组成。首先将轮辐式砂轮等效成轮毂为圆柱杆、辐板与轮缘为中厚板的复合模型,利用各接触面边界连续的条件推导系统的频率方程,完成了超声磨削系统的设计,制作了实验装置并分析验证了其声学振动特性。实验结果表明:利用轮辐式砂轮复合模型求解系统频率方程,在解决大负载超声振动磨削系统设计难题上的有效性。该超声系统结构简单,声学振动特性稳定,可输出均匀的位移振幅,有望在大负载的超声磨削领域获得应用。 相似文献
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为了将超声聚焦效应应用于工业加工中的冷却技术中,该文提出一种由夹心式换能器纵向振动驱动球面弯曲振动超声聚焦系统。基于基尔霍夫-亥姆霍兹声场理论分析了由换能器中心面纵向振动和球面弯曲振动组成的复合超声振动条件下的声场聚焦特性,并通过实验进行验证。研究结果表明,该聚焦系统具有显著的聚焦特性,球面弯曲振动将声能汇聚在声场焦区;当声场相位相同时,换能器中心面纵向振动和球面弯曲振动产生的声场在焦区发生叠加,可以进一步提高焦区声压;减小换能器中心面半径和球面曲率半径、增加球面开口半径可以增强复合超声振动的聚焦效果。 相似文献