利用磨细矿渣提高地下水封洞库喷射混凝土耐久性试验研究

高志华; 何 真; 赵 晓; 李 洋; 蔡新华

doi:10.3969/j.issn.1001-5485.2014.04.0212014, 31(04):97-103

PDF(1091 KB)

长江科学院院报 ›› 2014, Vol. 31 ›› Issue (4) : 97-103. DOI: 10.3969/j.issn.1001-5485.2014.04.0212014, 31(04):97-103

地下水封石洞油库工程建设研究专栏

利用磨细矿渣提高地下水封洞库喷射混凝土耐久性试验研究

高志华^{1, 2}, 何真³, 赵晓¹, 李洋³, 蔡新华³

作者信息 +

Improvement of Shotcrete’s Durability by Ground GranulatedBlast-Furnace Slag for Underground Water-sealed Oil Storagein Rock Caverns

GAO Zhi-hua^{1, 2}, HE Zhen³, ZHAO Xiao¹, LI Yang³, CAI Xin-hua³

Author information +

文章历史 +

摘要

地下水封洞室由于良好的性能成为广泛使用的储油设施之一, 但其“渗而不漏”的特性决定了后期运行需进行排水和油水分离, 渗透过大会使后期运行成本增加, 对长期安全储油带来不利影响。基于水封洞室良好的围岩条件, 利用S95级磨细矿渣在不降低喷射混凝土基本性能的前提下, 提高喷射混凝土的抗渗透性, 改善其长期耐久性, 降低水封洞室的运行成本。通过矿渣掺量对喷射混凝土凝结时间和工作性能的影响研究, 选择并优化基本喷射混凝土配合比, 并研究了掺矿物掺合料喷射混凝土抗压强度、回弹率、黏结强度和抗渗透性能, 研究结果表明① 矿渣虽一定程度延迟了喷射混凝土的凝结时间, 但对其回弹率和黏结强度无不良影响;② 利用矿渣可改善混凝土工作性能, 可进一步降低喷射混凝土水灰比, 使喷射混凝土获得良好的后期性能;③ 掺矿渣喷射混凝土良好的早期自密实性能和后期二次水化特性, 使喷射混凝土的抗渗透性能提高。

Abstract

Underground oil storage in rock caverns became one of the widely-used oil storage facilities owing to its good performance. But due to its characteristic of permeability without leakage, drainage and oil-water separation are required for the operation in the late period. Excessive permeability would increase the running cost and bring about negative effects on its long-term security. On the basis of surrounding rock’s good condition, the permeability resistance of shotcrete increased by adding S95 ground granulated blast-furnace slag without reducing shotcrete’s basic properties. The long-term durability of shotcrete is improved, and the operation cost of underground oil storage caverns is reduced. The influence of slag ratio on setting time and working performance of shotcrete is analyzed so as to optimize the mix proportion of basic concrete. The compressive strength, rebound ratio, bond strength and anti-permeability performance of the slag-mixed shotcrete are researched. Results showed that: 1) slag delayed the setting time of shotcrete slightly, but had no adverse effect on shotcrete’s rebound ratio and bond strength 2) slag improved concrete’s workability, further reduced shotcrete’s water-cement ratio, and enhanced the performance of shotcrete in later stage 3) shotcrete mixed with slag displayed good anti-permeability performance for early self-compacting properties and secondary hydration.

导出引用

高志华, 何真, 赵晓, 李洋, 蔡新华. 利用磨细矿渣提高地下水封洞库喷射混凝土耐久性试验研究[J]. 长江科学院院报. 2014, 31(4): 97-103 https://doi.org/10.3969/j.issn.1001-5485.2014.04.0212014, 31(04):97-103

GAO Zhi-hua, HE Zhen, ZHAO Xiao, LI Yang, CAI Xin-hua. Improvement of Shotcrete’s Durability by Ground GranulatedBlast-Furnace Slag for Underground Water-sealed Oil Storagein Rock Caverns[J]. Journal of Changjiang River Scientific Research Institute. 2014, 31(4): 97-103 https://doi.org/10.3969/j.issn.1001-5485.2014.04.0212014, 31(04):97-103

中图分类号： TU528

参考文献

[1] 杜国敏, 耿晓梅, 徐宝华. 国外地下水封岩洞石油库的建设与发展[J]. 油气储运, 2006, 25(4):5-8.(DU Guo-min, GENG Xiao-mei, XU Bao-hua. Construction and Development of Underground Water-sealed Mined Storage Caverns Abroad: A Review [J]. Oil and Gas Storage and Transportation, 2006, 25(4): 5-8. (in Chinese))
[2] 彭振华, 李俊彦, 孙承志, 等. 地下水封洞库的库址选择研究[J].油气储运, 2008, 27(1):60-62.(PENG Zhen-hua, LI Jun-yan, SUN Cheng-zhi, et al. Site Determination on Underground Water-sealed Oil Storage in Rock Caverns [J]. Oil and Gas Storage and Transportation, 2008, 27(1): 60-62.(in Chinese))
[3] KOVARI K. History of the Sprayed Concrete Lining Method-Part I: Milestones up to the 1960s[J].Tunnelling and Underground Space Technology, 2003, 18(1): 57-69.
[4] LEUNG C K Y, LAI R, LEE A Y F. Properties of Wet-mixed Fiber Reinforced Shotcrete and Fiber Reinforced Concrete with Similar Composition [J]. Cement and Concrete Research, 2005, 35(4): 788-795.
[5] PRUDHCIO JR L R. Accelerating Admixtures for Shotcrete[J]. Cement and Concrete Composites, 1998, 20(2/3): 213-219.
[6] BRAVO A, CERULLI T, MALTESE C, et al. Effects of Increasing Dosages of an Alkali-Free Accelerator on the Physical and Chemical Properties of a Hydrating Cement Paste[C]∥Proceedings of Seventh CANMET/ACI International Conference on Superplasticizers and Other Chemical Admixtures in Concrete, Berlin, Germany, October 20-24:211-225.
[7] MALMGREN L, NORDLUND E, ROLUN S. Adhesion Strength and Shrinkage of Shotcrete[J]. Tunnelling and Underground Space Technology, 2005, 20(1): 33-48.
[8] PARK H G, SUNG S K, PARK C G, et al. Influence of a C12A7 Mineral-based Accelerator on the Strength and Durability of Shotcrete[J]. Cement and Concrete Research, 2008, 38(3): 379-385.
[9] WONG H S, RAZAK H A. Efficiency of Calcined Kaolin and Silica Fume as Cement Replacement Material for Strength Performance[J]. Cement and Concrete Research, 2005, 35(4):696-702.
[10]ZHANG M H, TAM C T, LEOW M P. Effect of Water-to-Cementitious Materials Ratio and Silica Fume on the Autogenous Shrinkage of Concrete[J]. Cement and Concrete Research, 2003, 33(10):1687-1694.
[11]BANTHIA N, TROTTIER J, BEAUPRE D. Steel-fiber-reinforced Wet-mix Shotcrete: Comparisons with Cast Concrete[J]. Journal of Materials in Civil Engineering, 1994, 6(3): 430-436.
[12]QUENARD D A, XU K, KüNZEL H M, et al. Microstructure and Transport Properties of Porous Building Materials[J]. Materials and Structures, 1998, 31(5): 317-324.
[13]张鹏, 戴建国, 赵铁军, 等. 带裂缝混凝土的吸水性能及防水处理的影响[J].建筑材料学报, 2010, 13(1):70-74. (ZHANG Peng, DAI Jian-guo, ZHAO Tie-jun, et al. Water Absorption Property of Cracked Concrete and Effect of Water Repellent Treatment[J]. Journal of Building Materials, 2010, 13(1): 70-74.(in Chinese))
[14]PAGLIA C, WOMBACHER F, BHNI H. The Influence of Alkali-free and Alkaline Shotcrete Accelerators within Cement Systems I: Characterization of the Setting Behavior[J]. Cement and Concrete Research, 2001, 31(6): 913-918.