Research progress in silicic acid scale and its prevention methods

doi:10.11894/1005-829x.2017.37(10).006

INDUSTRIAL WATER TREATMENT ›› 2017, Vol. 37 ›› Issue (10): 6-10,43. doi: 10.11894/1005-829x.2017.37(10).006

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Research progress in silicic acid scale and its prevention methods

Du Cong¹, Arouna¹, Bao Cang², Batuqimuge¹, Bai Shuqin¹

1. School of Ecology and Environment, Inner Mongolia University, Hohhot 010021, China;
2. Hohhot Minzu College, Hohhot 010051, China

Received:2017-06-02 Online:2017-10-20 Published:2017-10-31
Supported by:

硅酸水垢及防治方法研究进展

杜聪¹, 阿柔娜¹, 包仓², 巴图其木格¹, 白淑琴¹

1. 内蒙古大学生态与环境学院, 内蒙古呼和浩特 010021;
2. 呼和浩特民族学院, 内蒙古呼和浩特 010051

通讯作者: 白淑琴,电话:0471-4991679,E-mail:baishuqin2000@163.com.
作者简介:杜聪(1993-),硕士研究生.E-mail:ducong138139@163.com.通讯作者:白淑琴,电话:0471-4991679,E-mail:baishuqin2000@163.com.
基金资助:
国家自然科学基金项目（21666025）；内蒙古自然科学基金项目（2014MS0202）资助。

Abstract

Abstract: Silicic acid in water can precipitate on the inner walls of equipment pipelines or on the membrane surfaces,to form silica scale in the process of water resource recycling,hindering the equipment from working normally. The main components of silica scale are inorganic silicate and amorphous SiO₂,the most refractory water scale. The methods for inhibiting silica scale include:(1)adding scale inhibitor to the inside of the equipment;(2)reducing silicic acid concentration by pretreatment outside the equipment. Furthermore,Method l includes:increasing the solubility of silicic acid and adding dispersant,and Method 2 includes:ultra-filtration method,RO membrane method,flocculation method,ion exchange method,etc.

Key words: solubility of silica acid, silica scale, silica scale harm, inhibition of silica scale

摘要： 在水资源再生利用过程中水中硅酸会沉淀在设备管道内壁或膜表面形成硅垢，影响设备的正常运行。硅垢的主要成分为无机硅酸盐和无定形SiO₂，是最难处理的水垢。抑制硅垢的方法有设备内添加阻垢剂和设备外预处理降低硅酸浓度等。设备内添加阻垢剂的方法又包括提高硅酸溶解度法和投加分散剂法；设备外预处理降低硅酸浓度的方法包括超滤膜法、反渗透膜法、絮凝法、离子交换法等。

关键词: 硅酸溶解度, 硅垢, 硅垢危害, 硅垢抑制

CLC Number:

TK228

Du Cong, Arouna, Bao Cang, Batuqimuge, Bai Shuqin. Research progress in silicic acid scale and its prevention methods[J]. INDUSTRIAL WATER TREATMENT, 2017, 37(10): 6-10,43.

杜聪, 阿柔娜, 包仓, 巴图其木格, 白淑琴. 硅酸水垢及防治方法研究进展[J]. 工业水处理, 2017, 37(10): 6-10,43.

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References

[1] 白淑琴,阿木日沙那,那人高娃,等. 水稻中硅元素的分布及存在状态的研究[J]. 应用与环境生物学报,2012,18(3):444-449.
[2] Iler R K. The chemistry of silica:Solubility,polymerization,colloid and surface properties and biochemistry[M]. New York:WileyInterscience Publication,1979:13.
[3] Sanciolo P,Milne N,Taylor K,et al. Silica scale mitigation for high recovery reverse osmosis of groundwater for a mining process[J]. Desalination,2014,340(1):49-58.
[4] Bai Shuqin,Urabe S,Okaue Y,et al. Acceleration effect of sulfate ion on the dissolution of amorphous silica[J]. Journal of Colloid and Interface Science,2009,331(2):551-554.
[5] Zhang Fang,Naren G W,Wang Yaqiong,et al. Formation of silica scales in the water utilization process and its prevention methods [J]. Advanced Materials Research,2013,731:1863-1866.
[6] 罗红艺,景红娟. 植物营养中新的必需元素——钠、镍、硅[J]. 高等函授学报:自然科学版,2002,15(3):42-45.
[7] Ma Xuelong,Fang Jiangyu. Nanometer SiO₂ in rice husk,its development and application[J]. Resource Development & Market,2005, 21(5):389-390.
[8] Hildebrand M. Biological processing of nanostructrued silica in diatoms[J]. Prog. Org. Coat.,2003,47(3/4):256-266.
[9] Piperno D R,Sues H D. Dinosaurs dined on grass[J]. Science, 2005,310:1126-1128.
[10] 张新荣,胡克,王东坡,等. 植硅体研究及其应用的讨论[J]. 世界地质,2004,23(2):112-117.
[11] 李仁成,谢树成,顾延生. 植硅体稳定同位素生物地球化学研究进展[J]. 地球科学进展,2010,25(8):812-819.
[12] Ma Jianfeng,Takahashi E. Soil,fertilizer,and plant silicon research in Japan[M]. Amsterdam:Elsevier Science,2002:49-61.
[13] Rodrigues F A,Vale F X,Datnoff L E,et al. Effeet of rice growth stages and silicon on sheath blight development[J]. Phytopathology,2003,93(3):256-261.
[14] Cob S S,Hofs B,Maffezzoni C,et al. Silica removal to prevent silica scaling in reverse osmosis membranes[J]. Desalination,2014, 344:137-143.
[15] Milne N A,O'Reilly T,Sanciolo P,et al. Chemistry of silica scale mitigation for RO desalination with particular reference to remote operations[J]. Water Research,2014,65:107-133.
[16] Nishida I,Okaue Y,Yokoyama T. The inhibition abilities of multifunction polyelectrolytes for silica scale formation in cooling water system:Role of the nonionic functional groups[J]. Journal of Colloid & Interface Science,2011,360(1):110-116.
[17] 李广兵,方健,徐敬,等. 水垢成垢诱导期机理研究[J]. 同济大学学报,2000,28(5):555-559.
[18] Yokoyama T,Itoi R,Utida A. Chemistry of silica scales at the geothermal power stations[J]. Journal of Japan Geothermal Energy Association,2002,39:43-72.
[19] 陈启俊. 硅垢防治法[J]. 工业水处理,1985,5(3):18-22.
[20] 张伟星. 污水深度回用装置反渗透膜的污染及化学清洗[J]. 中国氯碱,2010(11):39-42.
[21] 罗艳归,隋贤栋,黄肖容. 水垢防治技术研究进展[J]. 工业水处理,2012,32(1):18-20.
[22] 徐志明,杨善让,郭淑青,等. 电站锅炉污垢费用估算[J]. 中国电机学报,2004,24(2):196-200.
[23] 支苏丽. 工业用水中电化学深度除硅的特性研究[D]. 天津:天津大学,2014.
[24] 闻瑞梅,徐志彪,孟广祯,等. MOVPE生产用高纯水中硅的去除[J]. 电子学报,2014,31(5):721-723.
[25] 周本省. 循环冷却水系统中的水垢及其控制[J]. 腐蚀与防护, 2006,27(1):26-31.
[26] 蒋伟,徐军,翟军. 管道中水垢的形成机理及清洗方法分析[J]. 清洗世界,2008,24(12):19-25.
[27] 叶德霖. 硅垢及其阻垢剂[J]. 工业水处理,1994,14(3):3-6.
[28] Bai S Q,Tsuji Y,Okaue Y,et al. First detection of a silicic acid complex with a catechol derivative under natural condition[J]. Chemistry Letters,2008,37(11):1168-1169.
[29] Demadis K D,Pachis K,Ketsetzi A,et al. Bioinspired control of colloidal silica in vitro by dual polymeric assemblies of zwitterionic phosphomethylated chitosan and polycations or polyanions[J]. Advances in Colloid and Interface Science,2009,151(1/2):33-48.
[30] Bai S Q,Okaue Y,Yokoyama T. Depolymerization of polysilicic acid by tiron[J]. Polymer Degradation and Stability,2009,94(10): 1795-1799.
[31] 张春发,杨美丽. 某火力发电厂除盐水硅大的原因分析[J]. 科技经济导刊,2016(22):94-95.
[32] 邵磊,宋存义,胡永平,等. 工业用水中硅化合物的去除方法[J]. 中国给水排水,2000,16(4):26-28.
[33] 刘爱武,刘世念. 超滤系统运行分析研究[J]. 广东化工,2014, 41(7):65-66.
[34] 钱慧娟,胡烨,高清河,等. 油田采出水除硅工艺技术研究[J]. 大庆师范学院学报,2009,29(3):116-119.
[35] 王伟,司建辉,王同祖,等. 溶解性硅化合物对反渗透系统的影响及控制[J]. 石油化工腐蚀与防护,2012,29(6):50-54.
[36] 金若菲,王栋,周集体,等. 混凝法处理含硅酸盐废水的实验研究[J]. 工业水处理,2003,23(1):42-44.
[37] 马晓雁,庞维海,李青松,等. 稠油废水混凝法除硅工艺研究[J]. 给水排水,2008,34(11):183-186.
[38] 徐静莉. 用氯化镁去除稠油污水中硅[J]. 油气田地面工程, 2012,31(5):22-23.
[39] 王璟,毛进,赵剑强,等. 稠油污水蒸发前除硅及有机物的试验研究[J]. 中国电力,2016,49(1):37-43.
[40] Liao Z,Gu Z,Schulz M C,et al. Treatment of cooling tower blowdown water containing silica,calcium and magnesium by electrocoagulation[J]. Water Science & Technology,2009,60(9):2345-2352.
[41] Schulz M C,Baygents J C,Farrell J. Laboratory and pilot testing of electrocoagulation for removing scale-forming species from industrial process waters[J]. International Journal of Environmental Science & Technology,2009,6(4):521-526.
[42] Den W,Wang C J. Removal of silica from brackish water by electrocoagulation pretreatment to prevent fouling of reverse osmosis membranes[J]. Separation and Purification Technology,2008,59 (3):318-325.
[43] 王乡音,王建友,卢会霞,等. 高硅去除率电去离子技术制备高纯水的研究[J]. 水处理技术,2015,41(4):77-80.
[44] 闻瑞梅,张亚峰,邓守权,等. 用电去离子方法去除高纯水中硅的研究[J]. 工业水处理,2004,24(10):27-29.
[45] 姚兵,周国库,周向东,等. 高效纤维过滤器去除原水中的胶体硅[J]. 工业用水与废水,2002,33(1):13-15.
[46] 路光杰. 强碱性阴树脂除硅机理的研究[J]. 工业水处理,1994, 14(1):26-29.
[47] 成少兵. 稠油污水除硅技术的研究与应用[D]. 黑龙江:东北石油大学,2012.

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硅酸水垢及防治方法研究进展

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