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Experimental Study on the Effective Production of Biocement for Soil Solidification and Wind Erosion Control

Author

Listed:
  • Lei Hang

    (Key Laboratory of Geomechanics and Embankment Engineering of Ministry of Education, Hohai University, Nanjing 210024, China)

  • Feng Yang

    (Greentown China Holdings Limited, Hangzhou 310007, China)

  • Jie Xu

    (Key Laboratory of Geomechanics and Embankment Engineering of Ministry of Education, Hohai University, Nanjing 210024, China)

  • Zihao Zhao

    (School of Civil Engineering, Shenyang Jianzhu University, Shenyang 110168, China)

  • Wei Xiao

    (The Urbanization Development Research Center of Zhejiang Province, Hangzhou 310005, China)

  • Jia He

    (Key Laboratory of Geomechanics and Embankment Engineering of Ministry of Education, Hohai University, Nanjing 210024, China)

Abstract

Biocement can be achieved through the microbially induced carbonate precipitation (MICP) process. Such a method can potentially be utilized as an eco-friendly method for civil and environmental engineering applications such as soil ground improvement and wind erosion control of surface soil. In this method, one key step is the effective production of ureolytic bacteria. In previous laboratory and field studies, the cultivation and production of the bacteria used for the MICP were usually expensive and time-consuming. The purpose of this study was to optimize the cultivation method of the ureolytic bacteria ( Sporosarcina pasteurii ), and soil stabilization tests were conducted to verify the effectiveness of the cultured bacteria used to strengthen soil against the wind-induced erosion. Bacterial cultivation methods were studied by investigating the effects of different cultivation media and conditions. Testing variables included the types and concentrations of nitrogen sources (urea or NH 4 Cl), pH values (7.5–9.5), cultivation conditions (batch or chemostat condition), and different carbon sources. It was found that, with the same amount of nitrogen source, the test with pure urea had the highest biomass yield, urease activity, and specific urease activity than the other tests with pure NH 4 Cl or both NH 4 Cl and urea. The use of urea as the nitrogen source in the media also led to an increase in pH, which was not found in the test with pure NH 4 Cl. As for the factor of urea concentration, the tests with a higher urea concentration had a higher biomass yield, urease activity, and pH. The factor of pH values also played an important role. The test with an 8.5 initial pH value had a higher biomass yield, urease activity, and specific urease activity than the tests with 7.5 and 9.5 initial pH values. In the chemostat condition, the ureolytic bacteria could be effectively produced with urease activity up to 7 mmol/L/min, as compared with around 12 mmol/L/min activity in the batch condition. Thus, the optimum nitrogen source, pH value, and cultivation condition for the cultivation of Sporosarcina pasteurii was urea, 8.5, and batch condition, respectively. In addition, when soybean milk powder or milk powder was used as the carbon source, the urease activity was around 2.5 mmol/L/min, which is also high enough to be used for biocement.

Suggested Citation

  • Lei Hang & Feng Yang & Jie Xu & Zihao Zhao & Wei Xiao & Jia He, 2023. "Experimental Study on the Effective Production of Biocement for Soil Solidification and Wind Erosion Control," Sustainability, MDPI, vol. 15(6), pages 1-14, March.
  • Handle: RePEc:gam:jsusta:v:15:y:2023:i:6:p:5402-:d:1100866
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    References listed on IDEAS

    as
    1. Yaqing Gao & Chen Hua & Tong Ke, 2022. "Field Test on Soybean-Urease Induced Calcite Precipitation (SICP) for Desert Sand Stabilization against the Wind-Induced Erosion," Sustainability, MDPI, vol. 14(22), pages 1-11, November.
    2. Lei Hang & Enjie Yang & Yundong Zhou & Wenzhi Song & Jia He, 2022. "Microbially Induced Calcite Precipitation (MICP) for Stabilization of Desert Sand against the Wind-induced Erosion: A Parametric Study," Sustainability, MDPI, vol. 14(18), pages 1-11, September.
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