Effect analysis of biomineralization for solidifying desert sands

Linchang Miao, Hengxing Wang, Xiaohao Sun, Linyu Wu, Guangcai Fan
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Abstract

The sand-dust weather has become an environmental hazard in the world. However, it is still a challenge to control sandstorms and decrease sand-dust weather. The biomineralization technology for solidifying desert sands has been developed as a novel method in recent years. In this study, the wind erosion tests and verification tests of the sand solidification system were conducted via a series of laboratory experiments. The effects of sand barriers, injecting volume and concentration of the biochemical solution in the sandstorm protection were studied. Moreover, a field test of 60,000 square metres was conducted in the solidification area on both sides of the Wuma Highway in the Tengri Desert. The biomineralization technique was used to solidify sand to prevent the wind from blowing quicksand onto the newly built highway and causing accidents. Results demonstrated that the biomineralization sand solidification method had a good solidification ==effect, improved the survival rate, and promoted the growth of plants in the desert. This innovative biomineralization technology is an environmentally responsible technology to control sandstorm disasters.

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固化沙漠砂的生物矿化效应分析
沙尘天气已成为世界环境公害。然而,如何控制沙尘暴、减少沙尘天气仍是一个难题。近年来,沙漠固沙的生物矿化技术作为一种新方法得到了发展。本研究通过一系列实验室实验,对固沙系统进行了风蚀试验和验证试验。研究了沙障、注入量和生化溶液浓度对防风固沙的影响。此外,还在腾格里沙漠乌马公路两侧的固沙区进行了 60,000 平方米的实地试验。采用生物矿化技术固沙,以防止大风将流沙吹到新建的公路上造成事故。结果表明,生物矿化固沙法具有良好的固沙==效应,提高了成活率,促进了沙漠中植物的生长。这种创新的生物矿化技术是一种对环境负责的控制沙尘暴灾害的技术。
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