陶瓷滤管运行过程中的振动特性测定与分析

为分析实际生产中陶瓷滤管断裂的原因,利用电涡流位移传感器测定了陶瓷滤管在气体反吹时的振动,并测量了操作参数对陶瓷滤管振动的影响. 结果表明,陶瓷滤管在反吹时会产生径向位移,由于陶瓷滤管抗形变能力弱,可能会导致滤管发生断裂;另外,改变反吹压力对滤管振幅影响较大,反吹压力从0.3 MPa升至0.5 MPa时,滤管的振幅增加约40%;而改变过滤速度、脉冲宽度对滤管振幅影响较小,但会影响滤管振动的持续时间.     

陶瓷过滤器脉冲反吹全过程的瞬变流场计算

采用二维轴对称非稳态流动模型对陶瓷过滤器脉冲反吹全过程中滤管内外的瞬变流场进行了数值模拟,所计算的滤管外径向速度波形与实验测定结果基本吻合,给出了从正常过滤过程到脉冲反吹结束的全过程中引射区域和滤管内速度场及温度场的变化, 分析了反吹气体温度对滤管内温度分布的影响.模拟结果表明,过滤器的操作温度与反吹气体温度差提高,会加剧滤管轴向方向脉冲清灰不均匀性.     

刚性过滤器脉冲反吹过程中滤管内动态压力特性

催化汽油吸附脱硫（S-Zorb）装置中反应器过滤器的脉冲反吹性能直接影响吸附剂的分离与循环。利用建立的滤管过滤性能实验装置,采用高频动态压力传感器,测定脉冲反吹过程中沿滤管长度方向不同位置处滤管内动态压力随时间的变化特性,分析了滤管长度、反吹压力和脉冲宽度对滤管内动态压力特性的影响规律。结果表明：自开口端至盲端,滤管内动态压力的压力峰值先逐渐变大后基本不变;相同反吹条件下,随着滤管长度的增加,滤管内沿长度方向各位置处的压力峰值均降低。实验范围内,1750～2000 mm滤管开口端附近的动态压力在达到压力峰值后降低为负压,并在反吹气流和脉冲压力波的共同作用下持续振荡。适当提高反吹压力以及增加脉冲宽度可以改善长滤管的反吹效果。     

刚性过滤器脉冲反吹过程中滤管内动态压力特性

催化汽油吸附脱硫(S-Zorb)装置中反应器过滤器的脉冲反吹性能直接影响吸附剂的分离与循环。利用建立的滤管过滤性能实验装置,采用高频动态压力传感器,测定脉冲反吹过程中沿滤管长度方向不同位置处滤管内动态压力随时间的变化特性,分析了滤管长度、反吹压力和脉冲宽度对滤管内动态压力特性的影响规律。结果表明:自开口端至盲端,滤管内动态压力的压力峰值先逐渐变大后基本不变;相同反吹条件下,随着滤管长度的增加,滤管内沿长度方向各位置处的压力峰值均降低。实验范围内,1750~2000 mm滤管开口端附近的动态压力在达到压力峰值后降低为负压,并在反吹气流和脉冲压力波的共同作用下持续振荡。适当提高反吹压力以及增加脉冲宽度可以改善长滤管的反吹效果。     

陶瓷过滤器脉冲反吹时滤管外压力波形的测定与分析

利用压电式压力传感器测定了滤管外的压力波形,分析了喷吹压力、脉冲宽度等因素对滤管外压力的影响。实验结果表明,在脉冲反吹时滤管外附近区域的压力波衰减轻快,而离滤管壁一定距离后压力波则在过滤器内均匀传播。同时证明在脉冲及吹过程中,集气室对相邻滤管间相互影响具有重要作用。     

陶瓷过滤器滤管外瞬态流场

在由 3根陶瓷滤管组成的实验装置上 ,利用热线风速仪对脉冲反吹时滤管外瞬态流场进行了测定 ,分析了喷吹压力和脉冲宽度对滤管外流场的影响。结果表明 ,滤管外流场存在严重的气体回流区 ,回流速度峰值数倍于正常过滤气速。随着离开滤管壁面距离的增加 ,喷吹速度和回流速度逐渐减小 .随着喷吹压力的增加 ,反吹速度和回流速度也显著增加 .     

陶瓷过滤器滤管脉冲反吹过程的流动特性

在由三根陶瓷滤管组成的实验装置上 ,利用热线风速仪对脉冲反吹时滤管外瞬态流场进行了测定 ,分析了喷吹压力、脉冲宽度、过滤气速和喷吹距离对滤管外流场的影响。随着离开滤管距离的增加 ,喷吹速度和回流速度逐渐减小。结果表明 ,回流现象和喷吹气流沿轴向的不均匀性是影响过滤器脉冲反吹性能的重要因素     

收尘器清灰工艺参数对涡轮空气分级机分级性能的影响

本文运用正交试验方法研究了清灰工艺参数对涡轮空气分级机分级性能的影响,优化了工艺参数,并对影响原因进行了分析。结果表明:纤维的非稳态过滤及风机的软特性使分级效率和分级精度随着清灰压差的升高而明显降低,而喷吹压力与脉冲宽度的交互作用对分级效率有较显著影响。     

烧结金属丝网高温煤气除尘

进行了烧结金属丝网管在热态下除尘试验。对滤管除尘效率、压降及反吹清灰特性作了考察。提出了适宜的操作条件。     

脉冲喷吹参数对陶瓷膜管过滤器过滤性能的影响

陶瓷膜管在高温条件下具有优良的性能,采用陶瓷膜管过滤器对脉冲喷吹参数对陶瓷膜管过滤器过滤性能的影响进行了研究。结果表明,过滤速度、脉冲压力、脉冲宽度等参数对陶瓷膜管过滤器内金属矿粉的过滤效率影响不大,过滤效率基本维持在99.9%以上。但过滤速度对陶瓷膜管过滤器的压降影响十分显著,当过滤速度低于1.5 m/min时,20 ms的脉冲宽度和0.4 MPa的脉冲压力可以满足陶瓷膜管的再生要求;当过滤速度达到2 m/min时,20 ms脉冲宽度和0.5 MPa脉冲压力或30 ms脉冲宽度和0.4 MPa脉冲压力可以满足陶瓷膜管再生要求。     

陶瓷过滤管表面粉尘层清除过程的图像分析

Based on the analysis of high-speed video images, the detachment behavior of dust cake from the ceramic candle filter surface during pulse cleaning process is investigated. The influences of the dust cake loading,the reservoir pressure, and the filtration velocity on the cleaning effectiveness are analyzed. Experimental results show that there exists an optimum dust cake thickness for pulse-cleaning process. For thin dust cake, the patchy cleaning exists and the cleaning efficiency is low; if the dust cake is too thick, the pressure drop across the dust cake becomes higher and a higher reservoir pressure may be needed. At the same time there also exists an optimum reservoir pressure for a given filtration condition.     

陶瓷过滤器脉冲反吹用喷嘴优化设计

The experimental study was carried out to optimize the nozzle shape and dimension for the pulse cleaning of a ceramic filter candle. A bench scale unit of ceramic filter consisting of four commercial filter elements was used to measure the traces of the transient pressure around the nozzle and the overpressure in the filter cavity during the pulse-jet injection of pulse gas. Overpressure in the filter cavity is related to the pulse cleaning force. Nozzle design is concerned to increase the overpressure at the open end of filter element of pulse cleaning inlet, as well as to minimize the consumption of pulse gas. Convergent nozzle induces more secondary flow and generates higher pulse cleaning effect than straight nozzle. Nozzles of different convergent ratio （ratio of outlet to inlet diameter of nozzle） by changing the convergent angle and height were tested. The outlet diameter of convergent nozzle seriously influences the cleaning effect. The optimum convergent ratio increases with the increase of pulse gas pressure The nozzle position （distance of nozzle tip from the open end of filter inlet） is also important to decide the nozzle dimension. Nozzle of large outlet diameter accepts high pressure of pulse gas to provide large overpressure in the filter cavity of top position by applying long distance.     

陶瓷过滤器脉冲反吹系统的流场的数值模拟

In the commercial utilization of rigid ceramic filters, the performance of pulse cleaning has crucial effects on the long-term stable operation. In order to get a clear insight into the nature of this cleaning process and provide a solid basis for industrial applications, the flow in ceramic candle filter was investigated. The flow in the pulse-jetspace and inside the ceramic candle is regarded as two- dimensional, unsteady, compressible flow, and numerical simulation is carried out by computational fluid dynamics. The numerical predictions of flow field are in good agreement with the experimental measurements. Effects of the candle diameter, the separation distance between the nozzle and the candle injector and the length of the candle on the flowfield have been numerically analyzed to provide the basis for the optimum design of the pulse cleaning system.     

Experimental and analytical modeling of the filtration mechanisms of a paper stack candle filter

A candle filter consisting of a paper stack is an adequate device to clarify the grinding oil employed in the industrial post-processing of hard metal because of its cleaning efficiency and its regenerative capability by means of backwashing. The complex particle deposition mechanisms occurring in this device have not yet been investigated. Filtration experiments with a suitable particle-oil suspension were performed in a pilot filter and in a laboratory filter in order to investigate and model the mechanisms taking place in the process. The effect of operating parameters such as particle concentration and pressure difference on filter performance was evaluated. The results show that more than one filtration mechanism takes place simultaneously. While some depth filtration occurs at the beginning of the lifetime of a candle filter, blocking and cake filtration are the major mechanisms responsible for the filter clogging. Although blocking and cake filtration occur, to some extent, simultaneously, the cake filtration is the mechanism relevant for the modeling and scale-up of the long term filtration process.     

Numerical analysis of flow field in the hot gas filter vessel during the pulse cleaning process

The flow field is simulated for a ceramic filter vessel containing three candle filters which are arranged in the form of an equilateral triangle. Grids generated by GAMBIT are adopted for the simulations. The Reynolds stress model provided by FLUENT code is applied to evaluate gas flow and temperature field in the filter vessel. The temperature profiles in the ceramic candle filter cavity during the pulse cleaning process are analyzed under different operating conditions and for different lengths of candle filter. The evolution of radial velocity in the porous wall of the filters being cleaned and the normal working filters as well as around the filters is discussed. Sharp temperature change takes place in the top of the candle filter which is subject to thermal stress. The phenomenon of temperature increase during the pulse cleaning process has been carefully observed and interpreted based on the effect of gas compression. The simulated results show qualitative agreement with the experimental field observations with the filter vessel.