Civil Engineering

Zhongwei Hou1, Qiang Liu1,2, Yongwei Sun3, Fenglei Han This email address is being protected from spambots. You need JavaScript enabled to view it.1, Jiarui Zhang3, Shiyang Liu1, and Zonghan Liu1

1State Key Laboratory of Mountain Bridge and Tunnel Engineering, Chongqing Jiaotong University, Chongqing 400074, China
2Sichuan Construction Survey and Design Co., Ltd., China Railway 15th Bureau Group, Yibin 644000, China
3Sichuan Lehan Expressway Co., Ltd., Meishan 620010, China

 

Received: April 28, 2022
Accepted: June 30, 2022
Publication Date: July 28, 2022

 Copyright The Author(s). This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are cited.


Download Citation: ||https://doi.org/10.6180/jase.202304_26(4).0008  


ABSTRACT

The salts contained in hard groundwater often lead to crystallization and blockage of tunnel drainage pipes. In this paper, based on the principle of scale removal and inhibition, indoor tests were implemented so as to study the influence law of water filling conditions and different combinations of electromagnetic compound field and the crystallization of tunnel drainage pipes. The results showed that: (1) Under the action of applied electric field, electromagnetic compound field had a certain inhibitory effect on calcium carbonate crystallization process, resulting in changes in crystal structure morphology According to the test, the electromagnetic compound field had significantly greater influence than that of individual electric field or magnetic field under the same test parameters. After electromagnetic compound field treatment, the crystals became loose, unstable and irregular. (2) Different parameter combinations of electromagnetic compound field had different effects on crystallization. Among the parameter combinations, 0.1 T-5 V and 0.2 T-9 V were better parameter combinations, where the effect of 0.2 T is better than that of 0.1 T. (3) The influence of electromagnetic compound field on crystallization was more and more significant with time. After a certain time, new crystals were formed while old crystals were flaked off, the so-called process of “new crystalline matters replacing old ones”. Different combinations of parameters had different effects on crystallization, and the average anti-crystallization efficiency for the best combination of parameters was 46.43%. (4) Crystallization was more likely to occur in the drainage pipe under the “half-filled” condition than that under the “fully filled” condition. This was because the electromagnetic compound field promoted crystallization in the early stage, and gradually inhibited crystallization over time. Regardless of the water filling conditions of the drainage pipe, the electromagnetic compound field has more salient effects on crystallization over time. The study results can provide technical support for preventing crystal blockage of tunnel drainage pipes.


Keywords: Tunnel engineering; Drainage system; Crystal blockage; Model test; Electromagnetic compound field


REFERENCES

  1. [1] S. Guo, (2018) “Technical Development and Outlook of the Tunnels and Underground Works in China" Modern Tunnelling Technology 55(S2):
  2. [2] S. Y. Liu, X. F. Zhang, H. Y. Lv, Q. Liu, and B.Wang, “The Effect of Flocking PVC Pipe on the Prevention and Crystallization of Tunnel Drains" Science Technology and Engineering 18(21):
  3. [3] X. Zhang, Y. Zhou, B. Zhang, Y. Zhou, and S. Liu, (2018) “Investigation and analysis on crystallization of tunnel drainage pipes in chongqing" Advances in Materials Science and Engineering 2018:
  4. [4] Y. Zou, C. He, C. He, Z. Zhang, and B.Wang, (2014) “Analysis ofWater Seepage Characteristics and Formation Mechanisms in Seasonal Water-Rich Tunnels in a Karst Area of Chongqing" Modern Tunnelling Technology 51(4): 18–27, 45.
  5. [5] M. Zhai. “Study on the Regularity of Crystallization and Blocking of Tunnel Drainage System in Limestone Area". (phdthesis). Chongqing Jiaotong University, 2016.
  6. [6] Z. Liu, Y. Wang, J. Zhao, H. An, Y. Xing, X. Shao, and X. Gao, (2018) “Analysis on the scale inhibition effects of uniform and non-uniform electrostatic fields on circulating cooling water" Industrial Water Treatment 38(1):
  7. [7] H. F. An, Z. A. Liu, J. D. Zhao, X. Zhang, S. Long, J. Zhao, T. Xia, and Z. X., (2013) “Scale inhibition effects and mechanism of high voltage electrostatic fields in thermal power plant circulating cooling water system" Chinese Journal of Environmental Engineering 7(11): 4295–4299.
  8. [8] H. H. Li, Z. F. Liu, X. H. Li, and Q. Q. Dong, (2011) “Effect of Electrostatic Field on Calcium Carbonate Precipitation" IEEE: 1–4.
  9. [9] Z. M. Xu, H. L. Chang, B. B. Wang, J. T. Wang, and Y. L. Q. Li, (2018) “Experimental Study on CaCO3 Fouling Characteristics Under Electric Field" Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering 38(21): 6346–6352, +6496.
  10. [10] H. Zhou, N. Zhang, Y. N.Wang, and S. J. Zhou, (2013) “Studies on hydroxyl radical mechanism of dyeing wastewater degradation by photo-electro catalysis" Technology of Water Treatment 39(4): 24–27.
  11. [11] L. D. Tijing, D. H. Lee, D. W. Kim, Y. I. Cho, and C. S. Kim, (2011) “Effect of high-frequency electric fields on calcium carbonate scaling" Desalination 279(1-3): 47–53.
  12. [12] J. Q. Qi, R. Guo, Y. Wang, X. W. Liu, and H. L. W. Chan, (2016) “Electric Field-Controlled Crystallizing CaCO3 Nanostructures from Solution" Nanoscale Research Letters 120(11): 1167–1338.
  13. [13] Q. Q. Dong, D. Q. Zhang, Z. F. Liu, and H. H. Li, (2011) “Study on effect of magnetic field on crystallization of CaCO3" Journal of Hebei University of Science and Technology 32(3): 277–280.
  14. [14] J. J. Song. “Experimental Study on the Impact of Magnetic Field on Calcium Carbonate Crystallization Process". (phdthesis). Shandong University, 2015.
  15. [15] J. G.Wang, Z. H. Luo, Y. D. Liang, Z.W. Li, and L. J. Wang, (2018) “Effect of Electromagnetic Fields on Calcium Carbonate Solution Crystallization and Magnetic Memory Effect" Crystal Research and Technology 53(6): 1700188.
  16. [16] J. Sohaili, S. H. Shi, Lavania-Baloo, N. H. Zardari, N. Ahmad, and S. K. Muniyandi, (2016) “Removal of scale deposition on pipe walls by using magnetic field treatment and the effects of magnetic strength" Journal of Cleaner Production 139: 1393–1399.
  17. [17] V. V. Goncharuk, V. A. Bagrii, and S. Y. Bashtan, (2012) “Crystallization of calcium carbonate from aqueous solutions in superimposition of electric and magnetic fields" Journal of Water Chemistry & Technology 34(3): 133–135.
  18. [18] U. Surendran, O. Sandeep, and E. J. Joseph, (2016) “The impacts of magnetic treatment of irrigation water on plant, water and soil characteristics" AgriculturalWater Management 178: 21–29.
  19. [19] S. Y. Huang and H. R. Song, (1991) “Study on the crystalliation and precipitation of carbonate at different temperature conditions" Geoscience (4): 442–449, 475–476.
  20. [20] J. Xu and J. Li, (2004) “Influence of CO2 release on process of precipitation of calcium carbonate" Tongji Daxue Xuebao/Journal of Tongji University 32(9): 1173–1177.

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