Effect of Reaction Solution Amount on Microbial Reinforcement of Silt in Multi-Treatments

doi:10.3969/j.issn.1674-0696.2023.08.08

Abstract

Abstract: The silt can be strengthened effectively by the bio-cementation approach, in which the Sporosarcina pasteurii solution was premixed with dry soil followed by cementation solution (including equal ratio of calcium chloride and urea) percolation several times. The amount of reaction solution used (the number of percolation treatments of cementation solution and the volume of bacterial solution) has a significant impact on the reinforcement effect. The test results of cementation solution percolation treatments show that the samples reinforced with different percolation treatments have good stability in water. As the number of infiltration treatments increases, the CaCO3 content and unconfined compressive strength in the sample gradually increase, and the increase in the late percolation stage is higher than that in the early stage. The scanning electron microscope photos indicate that the crystal size of CaCO3 is much bigger when there are more times of cementation solution percolation. The test results of bacteria solution volume show that when the amount of bacterial solution is 1.0 time of the pore volume (1.0Vv), relatively more CaCO3 is generated in the sample, and the unconfined compressive strength is also higher. Reducing the volume of bacterial solution could not improve the reinforcement effect. Besides, when the percolation times is less, the reinforcement of samples treated with 0.6Vv of bacteria solution is poor.

Key words: geotechnical engineering; microbial-cementation; cementation solution; percolation treatments; bacteria solution volume

摘要： 采用先将巴氏芽孢杆菌的菌液与粉土拌合，然后入渗多轮胶结液(包含等比例的氯化钙和尿素)的方法可对粉土进行有效胶结加固。反应溶液用量(胶结液入渗轮数和菌液体积)对加固效果有重要影响。胶结液入渗轮数试验结果表明：不同入渗轮数加固的试样在水中具有良好的稳定性；随着入渗轮数增加，试样中的CaCO3含量和无侧限抗压强度逐渐提高，且入渗后期的增幅高于前期。扫描电镜结果表明：入渗轮数较多时沉积的CaCO3晶体尺寸更大。菌液体积试验结果表明：当菌液用量为1倍孔隙体积(1.0Vv)时，试样中生成的CaCO3相对较多，无侧限抗压强度也更高。减少菌液体积并不能带来加固效果的提升；当入渗轮数较少时，采用0.6Vv菌液体积的加固效果较差。

关键词: 岩土工程；微生物胶结；胶结液；入渗轮数；菌液体积

CLC Number:

TU472.4

ZHAO Zhifeng, WANG Haoran. Effect of Reaction Solution Amount on Microbial Reinforcement of Silt in Multi-Treatments[J]. Journal of Chongqing Jiaotong University(Natural Science), 2023, 42(8): 51-56.

赵志峰，王浩然. 多轮反应溶液用量对微生物加固粉土的影响[J]. 重庆交通大学学报（自然科学版）, 2023, 42(8): 51-56.

References

［1］江朝华，李智成，方佳敏，等．废弃疏浚沙土固化利用研究［J］．重庆交通大学学报(自然科学版)，2020，39(12)：111-116．
JIANG Chaohua, LI Zhicheng, FANG Jiamin, et al. Solidification utilization of waste dredge sand and soil ［J］. Journal of Chongqing Jiaotong University (Natural science), 2020, 39(12): 111-116.
［2］肖庆一，孙立东，封仕杰，等．石灰改良云南红粘土路基路用性能研究［J］．重庆交通大学学报(自然科学版)，2020，39(10)：79-84．
XIAO Qingyi, SUN Lidong, FENG Shijie, et al. Road performance of lime-modified Yunnan red clay roadbed ［J］. Journal of Chongqing Jiaotong University (Natural science), 2020, 39(10): 79-84.
［3］ MAHAWISH A, BOUAZZA A, GATES W P. Factors affecting the bio-cementing process of coarse sand ［J］. Proceedings of the Institution of Civil Engineers Ground Improvement, 2019, 172(1): 25-36.
［4］ MUJAH D, SHAHIN M A, CHENG Liang. State-of-the-art review of Biocementation by microbially induced calcite precipitation (MICP) for soil stabilization ［J］. Geomicrobiology Journal, 2017, 34(6): 524-537.
［5］ MAHAWISH A, BOUAZZA A, GATES W P. Effect of particle size distribution on bio-cementation of coarse aggregates ［J］. Acta Geotechnica, 2018, 13(10): 1019-1025.
［6］ KONSTANTINOU C, BISCONTIN G, JIANG N J, et al. Application of microbially induced carbonate precipitation to form bio-cemented artificial sandstone ［J］. Journal of Rock Mechanics and Geotechnical Engineering, 2021, 13(3): 579-592.
［7］ AHMED A Q, KENICHI S, CARLOS S. Factors affecting efficiency of microbially induced calcite precipitation ［J］. Journal of Geotechnical and Geonvironmental Engineering, 2012, 138(8): 992-1001.
［8］ LIU Lu, LIU Hanlong, STUEDLEIN A, et al. Strength stiffness and microstructure characteristics of biocemented calcareous sand ［J］. Canadian Geotechnical Journal, 2019, 56(10): 1502-1513.
［9］彭邦阳，赵志峰．表面入渗法诱导碳酸钙沉积加固海相粉土研究［J］．林业工程学报，2018，3(5)：136-141．
PENG Bangyang, ZHAO Zhifeng. Improvement of marine silt by microbial induced calcite precipitation by surface percolation ［J］. Journal of Forestry Engineering, 2018, 3(5): 136-141.
［10］赵茜．微生物诱导碳酸钙沉淀(MICP)固化土壤实验研究［D］．北京：中国地质大学(北京)，2014．
ZHAO Qian.Experimental Study on Soil Improvement Using Microbial Induced Calcite Precipitation (MICP) ［D］. Beijing: China University of Geosciences (Beijing), 2014.
［11］赵志峰，孔繁浩．土体环境对微生物诱导碳酸钙沉积加固海相粉土的影响研究［J］．防灾减灾工程学报，2018，38(4)：608-614．
ZHAO Zhifeng, KONG Fanhao. Effects of soil environment on microbially induced calcite precipitation in marine silt ［J］. Journal of Disaster Prevention and Mitigation Engineering, 2018, 38(4): 608-614.
［12］杨宇烨，赵志峰．胶结液浓度对微生物注浆加固海相粉土的影响［J］．林业工程学报，2019，4(4)：143-147．
YANG Yuye, ZHAO Zhifeng. Study on the influence of cementation solution concentration on reinforcement of marine silt by microbial grouting ［J］. Journal of Forestry Engineering, 2019, 4(4): 143-147.
［13］邵光辉，尤婷，赵志峰，等．微生物注浆固化粉土的微观结构与作用机理［J］．南京林业大学学报(自然科学版)，2017，41(2)：129-135．
SHAO Guanghui, YOU Ting, ZHAO Zhifeng, et al. Microstructure and mechanism of microbial cementation silt treated by bio-grouting ［J］. Journal of Nanjing Forestry University (Natural Science Edition), 2017, 41(2): 129-135.
［14］ DADDA A, GEINDREAU C, EMERIAULT F, et al. Characterization of microstructural and physical properties changes inbiocemented sand using 3D X-ray microtomography ［J］. Acta Geotechnica, 2017, 12(9): 955-970.
［15］ SHARMA M, SATYAM N, REDDY K R. Rock-like behavior ofbiocemented sand treated under non-sterile environment and various treatment conditions ［J］. Journal of Rock Mechanics and Geotechnical Engineering, 2021, 13(3): 705-716.
［16］赵志峰，彭邦阳，邵光辉．胶结液参数对微生物加固粉土的影响［J］．东南大学学报(自然科学版)，2021，51(3)：456-461．
ZHAO Zhifeng, PENG Bangyang, SHAO Guanghui. Effect of cementation solution parameters on reinforcing silt by bio-cementation ［J］. Journal of Southeast University (Natural Science Edition), 2021, 51(3): 456-461.
［17］ CHENG Liang, SHAHIN M A, MUJAH D. Influence of key environmental conditions on microbially induced cementation for soil stabilization ［J］. Journal of Geotechnical and Geoenvironmental Engineering, 2017, 143(1): 1-11.