Assistant Professor, College of Civil Engineering, King Saud University, Riyadh, 11421, Saudi Arabia.
Postdoctoral Research Associate, Center for Bio-mediated and Bio-inspired Geotechnics (CBBG), Arizona State University, Tempe, AZ, USA.
Sci Rep. 2019 Feb 4;9(1):1135. doi: 10.1038/s41598-018-38361-1.
Specimens of silica sand treated via enzyme induced carbonate precipitation (EICP) showed surprisingly high strength at a relatively low carbonate content when non-fat powdered milk was included in the treatment solution. EICP is a biologically-based soil improvement technique that uses free urease enzyme to catalyze the hydrolysis of urea in an aqueous solution, producing carbonate ions and alkalinity that in the presence of calcium cations leads to precipitation of calcium carbonate. The strength achieved at less than 1.4% carbonate content via a single cycle of treatment was unprecedented compared to results reported in the literature from both EICP and microbially induced carbonate precipitation (MICP). Scanning electron microscope images show that in the specimens treated with the solution containing powdered milk the carbonate precipitate was concentrated at interparticle contacts. The impact of these results include reductions in the concentration of substrate and enzyme required to achieve a target compressive strength, reduction in the undesirable ammonium chloride by-product, and, depending on the desired strength, reduction in the number of cycles of EICP treatment. These advantages enhance the potential for development of a sustainable method of soil improvement via hydrolysis of urea.
经酶诱导碳酸化沉淀(EICP)处理的硅砂标本在处理溶液中加入脱脂奶粉时,即使碳酸盐含量相对较低,其强度也出人意料地高。EICP 是一种基于生物学的土壤改良技术,它使用游离脲酶来催化水溶液中尿素的水解,产生碳酸根离子和碱度,在钙离子存在的情况下导致碳酸钙沉淀。与 EICP 和微生物诱导碳酸化沉淀(MICP)文献中报道的结果相比,通过单次处理达到的不到 1.4%碳酸盐含量的强度是前所未有的。扫描电子显微镜图像显示,在含有奶粉的溶液处理过的标本中,碳酸盐沉淀物集中在颗粒间接触处。这些结果的影响包括降低达到目标抗压强度所需的基质和酶的浓度、减少不希望的氯化铵副产物,以及根据所需强度减少 EICP 处理的循环次数。这些优势提高了通过尿素水解开发可持续土壤改良方法的潜力。