基于静电测量的聚乙烯气固流化床结片检测

doi:10.3785/j.issn.1008-973X.2009.

2009, Vol. 43

Issue (09): 1697-1702 DOI: 10.3785/j.issn.1008-973X.2009.

化学工程

基于静电测量的聚乙烯气固流化床结片检测

王芳¹,于恒修^{1, 2},任聪静¹,王靖岱¹,阳永荣¹

（1.浙江大学化学工程国家重点联合实验室聚合反应工程实验室,浙江杭州 310027；
2.中石化长岭分公司军事代表室,湖南岳阳 414012）

etection of sheeting in polyethylene gas-solid fluidized bed by measuring electrostatic current

WANG Fang¹,YU Heng-xiu^{1, 2},REN Cong-jing¹,WANG Jing-dai¹,YANG Yong-rong¹

(1.State Key Laboratory of Chemical Engineering, Polymer Reaction Engineering Division, Zhejiang University,
Hangzhou 310027, China; 2.Changling Military Deputy Office of SINOPEC, Yueyang 414012, China)

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摘要：

以聚乙烯气固流化床内无结片正常流化状况为参照,对发生黏壁结片、黏分布板非对称结片和黏分布板对称结片等3种典型结片时不同径向和轴向位置的静电流(EC)进行了测量,发现静电流对结片的灵敏度较高,并据此提出了一种基于静电流的新型结片检测方法,可通过静电流信号平均值(MV)和标准偏差(STD)的改变判断结片的位置.研究发现,在正常流化状况下,床内流化状况均匀,静电流径向对称性良好.而黏壁结片和黏分布板非对称结片的发生均在一定区域内破坏了流化状况的均匀性,前者主要影响结片下方区域的流化状态,后者则对距离分布板较近的两个测点影响较大,两者均造成有结片侧和无结片侧静电流大小和波动程度的差异增大.黏分布板对称结片对流化床中流动状况的对称性几乎没有影响,但与无结片时的实验结果相比,相同高度、相同气速下的平均电流和标准偏差均增大.

Abstract:

Electrostatic current (EC) signals at different positions in the polyethylene gas-solid fluidized bed with sheeting were investigated respectively with the reference to the non-sheeting fluidization condition. Results showed that EC was sensitive to the different kinds of sheeting, including sheeting on column wall, asymmetrical and symmetrical sheeting on distributor. Then a new method to detect sheeting was proposed based on EC. The method estimated the position of sheeting through changes of EC’s mean value (MV) and standard deviation (STD). Results showed that EC’s MV and STD in the bed without sheeting were axial symmetrical, while the formation of sheeting on the column wall and asymmetrical sheeting on the distributor destroyed the symmetry of EC in a certain region. The former primarily influenced the fluidization condition of the zone under the sheeting, while the latter significantly affected the zone near the distributor, both of which resulted in the greater differences of EC’s MV and STD between the regions of the fluidized bed without and with sheeting. Symmetrical sheeting on the distributor had little influence on the symmetry of the fluidization condition, but EC’s MV and STD were both greater than the results from the bed without sheeting．

TQ021.8

基金资助:

国家自然科学基金资助项目（20490205）.

通讯作者: 王靖岱，男，副教授. E-mail: wangjd@zju.edu.cn

作者简介: 王芳（1980-），女，山东惠民人，博士生，从事气固流化床中静电现象研究.

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引用本文:

王芳, 于恒修, 任聪静, 等. 基于静电测量的聚乙烯气固流化床结片检测[J]. J4, 2009, 43(09): 1697-1702.

WANG Fang, XU Heng-Xiu, LIN Cong-Jing, et al. etection of sheeting in polyethylene gas-solid fluidized bed by measuring electrostatic current. J4, 2009, 43(09): 1697-1702.

链接本文:

http://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2009. 或 http://www.zjujournals.com/eng/CN/Y2009/V43/I09/1697

[1] GREGORY H. Electrostatics and gas phase fluidized bed polymerization reactor wall sheeting[J]. Chemical Engineering Science, 2006,61(4):1041-1064.
[2] 于恒修,王芳,王靖岱,等. 气相聚合流化床内静电与结片现象的研究进展[J].石油化工,2007,36(2):206-211.
YU Heng-xiu, WANG Fang, WANG Jing-dai, et al. Progress in study of electrostatics and wall sheeting in gas phase polymerization fluidized bed reactor
[J]. Petrochemical Technology, 2007, 36(2):206-211.
[3] FULKS B D, SAWIN S P, AIKMAN C D, et al. Process for reducing sheeting during polymerization of alpha-olefins: US, 4876320[P]. 1989-10-24.
[4] ALI A H, CHRANOWSKI S M, FOSTER J G, et al. Control of static with TEOS: US, 5731392[P]. 1998-06-29.
[5] GOODE M G, WILLIAMS C C, HUSSEIN F D, et al. Static control in olefin polymerization: US, 6111034[P]. 2000-08-29.
[6] CIBORAWSKI J, WOLDARSKI A. On electrostatic effects in fluidized beds
[J]. Chemical Engineering Science, 1962, 17(1):23-32.
[7] BOLAND D, GELDART D. Electrostatic charging in gas fluidized beds [J]. Powder Technology, 1971, 5(2):289-297.
[8] WOLNY A, KAZMIERCZAK W. The influence of static electrification on dynamics and rheology of fluidized bed [J]. Chemical Engineering Science, 1993, 48(20):3529-3534.
[10] SCHOUTEN J C, BLEEK C M. Monitoring the quality of fluidization using the short-term predictability of pressure fluctuations [J].AICHE Journal, 1998, 44(1): 48-60.
[11] 郑燕萍, 黄轶伦, 陈伯川,等. 利用压力脉动信号特征预测流化床结块故障[J]. 高校化学工程学报, 2000, 14(2):128-133.
ZHENG Yan-ping, HUANG Yi-lun, CHEN bo-chuan, et al. Forcast the formation of agglomeration in fluidized beds by using characteristic of the pressure fluctuation signal [J]. Journal of Chemical Engineering of Chinese Universities, 2000, 14(2):128-133.
[12] OMMEN J R, KORTE R J, BLEEK C M. Rapid detection of defluidization using the standard deviation of pressure fluctuations [J]. Chemical Engineering and Processing, 2004, 43 (10): 1329-1335.
[13] 曹翌佳, 石志俭, 杨宝柱,等. 气相聚合流化床内聚合物结块的声波检测技术 [J]. 石油化工, 2006, 35(8):766-769.
CAO Yi-jia, SHI Zhi-jian, YANG Bao-zhu, et al. Detection of agglomeration in gas-phase polymerization fluidized-bed by using sound wave technique [J]. Petrochemical Technology, 2006, 35(8):766-769.
[14] 王靖岱, 蒋斌波, 阳永荣,等. 声波的多尺度解析与气固流化床故障检测[J]. 化工学报, 2006, 57(7):1560-1564.
WANG Jing-dai, JIANG Bin-bo, YANG Yong-rong, et. al. Multi-scale analysis of acoustic emissions and malfunction diagnosis in gas-solid fluidized bed [J]. Journal of Industry and Engineering(China), 2006, 57(7):1560-1564.
[15] YAO L, BI H T, PARK A H. Characterization of electrostatic charges in freely bubbling fluidized beds with dielectric particles [J]. Journal of Electrostatics, 2002, 56(2):183-197.

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