智能土壤灌浆利用创新的产脲酶细菌和低成本材料。

Microbiology Department, Central Laboratory for Environmental Quality Monitoring (CLEQM), National Water Research Center (NWRC), Cairo, Egypt.

J Appl Microbiol. 2021 Nov;131(5):2294-2307. doi: 10.1111/jam.15117. Epub 2021 May 12.

AIMS

Calcium carbonate is a biomineral whose precipitation could be mediated by ureolytic bacteria and contributes in strengthening of sandy soils. The type of bacteria and grade of reagents have significant influence on microbially induced calcite precipitation (MICP). In the present study, factorial experiments based on these two factors were designed to determine their potential on MICP process, taking into consideration the economic advantages while giving quality results as well.

METHODS AND RESULTS

For the first time, Alkalibacterium iburiense strain EE1 (GenBank accession no. MF355369.1) is reported for its biogrouting activity. Optimum growth conditions for MICP treatments were pH (9·56 ± 0·021), EC (44·7 ± 0·057 mS cm ), OD (2·04 ± 0·015), NH concentration (487·06 ± 1·021 mmol l ), and urease activity (20·0 ± 0·75 mmol l urea hydrolysed min ) after 72-h incubation. Statistical analysis comparing the growth in technical-grade medium prepared in tap water and analytical-grade medium prepared in deionized water showed no significant differences (P = 1·0) in biomass and urease activity. In contrast to previous studies, the current approach could reduce the bacterial culture and cementation solution ratio by about 50%, using a simple surface percolation method with staged injection instead of parallel injection to treat different sand columns. Using fixation solution could immobilize the bacteria over the full length of columns for better strength improvement. The unconfined compressive strength ranged between 0·64 to 2·11 kg cm , and the corresponding CaCO contents 5·7-38·5%. The scanning electron microscope images indicated that the precipitated CaCO by bacteria was stable calcite.

CONCLUSIONS

Alkalibacterium iburiense and technical-grade reagents under nonsterile conditions are satisfactory consolidating agents for sandy soils.

SIGNIFICANCE AND IMPACT OF THE STUDY

This approach is considered eco-friendly and cost-effective for future scale-up applications in various geotechnical engineering.

目的

碳酸钙是一种生物矿化物质，其沉淀可以被脲酶细菌介导，并有助于增强沙土的强度。细菌的类型和试剂的等级对微生物诱导碳酸钙沉淀（MICP）有显著影响。在本研究中，基于这两个因素设计了析因实验，以确定它们在 MICP 过程中的潜力，同时考虑到经济优势，也能获得高质量的结果。

方法和结果

首次报道了 Alkalibacterium iburiense 菌株 EE1（GenBank 登录号 MF355369.1）具有生物胶结活性。MICP 处理的最佳生长条件为 pH（9.56±0.021）、EC（44.7±0.057 mS cm）、OD（2.04±0.015）、NH浓度（487.06±1.021 mmol l）和脲酶活性（20.0±0.75 mmol l 尿素水解 min），经过 72 h 孵育。统计分析比较了在自来水制备的工业级培养基和去离子水制备的分析级培养基中生长的情况，发现生物量和脲酶活性没有显著差异（P=1.0）。与以往的研究相比，目前的方法可以通过简单的表面渗滤法，采用分段注入而不是平行注入来处理不同的砂柱，将细菌培养物和胶结溶液的比例降低约 50%。使用固定溶液可以将细菌固定在柱的全长上，从而更好地提高强度。无侧限抗压强度范围为 0.64 至 2.11 kg cm，相应的 CaCO 含量为 5.7-38.5%。扫描电子显微镜图像表明，细菌沉淀的碳酸钙是稳定的方解石。

结论

在非无菌条件下，Alkalibacterium iburiense 和工业级试剂是沙土的满意加固剂。

研究的意义和影响

这种方法被认为是环保且具有成本效益的，可用于未来在各种岩土工程中的大规模应用。

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AIMS

METHODS AND RESULTS

CONCLUSIONS

SIGNIFICANCE AND IMPACT OF THE STUDY

目的

方法和结果

结论

研究的意义和影响

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