Ying Shi scite author profile

Ying Shi

2Publications

0Citation Statements Received

34Citation Statements Given

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Affiliations

Central South University, Institute of Chemical Industry of Forest Products, Chinese Academy of Forestry

Publications

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The changes of bamboo pulping waste water residuals in biological treatment process

Liang

Shi

Fang

et al. 2018

Water & Environment J

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The residuals of the bamboo pulping wastewater were analysed systematically. The COD (chemical oxygen demand) decreased significantly by adding appropriate coagulant (1.5 kg/m 3 10% Al 2 (SO 4 ) 3 as coagulant and 2 mg/L anionic PAM as coagulant aid) to the effluent in secondary sedimentation tank. The study found that hydrolytic bacteria in primary sedimentation tank and balancing tank may increase the ratio of BOD/COD and promote the release of ammonia nitrogen (NH 3 -N), which was benefit to further degradation of organic pollutants by aerobic biological treatment. Through optimizing biochemical process and adjusting contents of nitrogen, phosphorus, and mineral elements, the effects of wastewater treatment has been greatly enhanced and the quality of discharged water could met the new national standard GB3544-2008.

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Reuse of Phosphogypsum Pretreated with Water Washing as Aggregate for Cemented Backfill

Zhou

Shi

et al. 2022

Preprint

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Phosphogypsum (PG) is reused as aggregate in the cemented backfill of the mines, which effectively improves the PG reutilization efficiency. However, the massive impurities contained in aggregate PG would adversely affect the hydration of binder, and therefore deteriorating strength development of backfill. This research starts with the feasibility study on pretreating the aggregate PG with the water washing method. Based on the most economical principle of the water demand, the optimal conditions for washing PG were determined at a stirring time of 5 min and a solid-liquid ratio of 1:0.5. Then, the original and the pretreated PG were made into the backfill. Compared to using the original PG, the backfill slurry using the pretreated PG had better fluidity performance, such as the lower slurry viscosity, the higher bleeding rate and the shorter setting times. Furthermore, with the pretreated aggregate PG, the strength of the backfill was significantly enhanced by more than 8 times, which was due to the removal of impurities on the surface of PG in the pretreatment. Finally, the environmental behavior of the cemented backfill was investigated. Using the pretreated PG as aggregate, concentrations of PO43−-P and F− in the bleeding water and leachates of backfill could meet the Chinese standard for integrated wastewater discharge, which significantly reduced the adverse effect of PG on the environment. The results extend the reuse of PG as aggregate in a more environmental-friendly way, meeting the needs for sustainable mines.

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Ying Shi

The changes of bamboo pulping waste water residuals in biological treatment process

Reuse of Phosphogypsum Pretreated with Water Washing as Aggregate for Cemented Backfill

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