Yi Liang scite author profile

Yi Liang

3Publications

0Citation Statements Received

80Citation Statements Given

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Guilin University of Technology

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Preparation of lightweight ceramsite from remediated soil, waste glass and ceramics

Lao

An²,

Liang

et al. 2023

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Lightweight ceramsite is the core material for building to achieve energy-saving and low-carbon operation. The disposal of remediated soil by Cr (VI) -contaminated, waste glass and ceramics after remediation has always been a major problem in the environmental field. Herein, it analyzed the composition and sintering process of the above three solid wastes, after studying the component preparation and firing process, lightweight ceramsites with bulk density and grain density of 626.79 kg/m3 and 1142.56 kg/m3, respectively, were successfully prepared, and the leaching concentration of Cr (VI) was controlled at a low concentration level below 0.06 mg/L. Compared with the conventional ceramsite preparation technology, the method of firing ceramsite by the remediated soil, waste glass and ceramics can effect eliminate the environmental risk of solid waste and effectively reduce the consumption of clay and other resources, which has the technical advantages of safety, reliability, green and low carbon.

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Preparation and properties of TiO2 photocatalytic self—cleaning coating material for glass

Yang

Liu

Wang

et al. 2023

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The balance of light transmittance, durability and self-cleaning performance of the coating film is the main reason that hinders the wide application of photocatalytic self-cleaning coating on building exterior glass. In this paper, TiO2 powder was prepared with different concentrations of tetrabutyl titanate, hydrochloric acid and ethanol; and following with compounded polyvinyl alcohol (PVA) and waterborne polyurethane (PU) as adhesives; the mixed composite coating was loaded on the glass surface by spraying method to obtain superhydrophilic glass with self-cleaning properties. The physical and chemical properties of TiO2 composite films were characterized and tested by diffraction, scanning electron microscopy, optical contact angle measuring instrument and photocatalytic testing system. The results showed that the XRD analysis of the powder obtained with different alcohol-ester ratios showed that the crystal synthesis was successful, and the grain size conformed to the nanometer standard. TiO2 dispersion with a concentration of 0.08g/L, after 30min irradiation with ultraviolet lamp, the methyl orange added dropwise in the solution can be completely degraded; With the increase of TiO2 concentration, the photocatalytic efficiency increased rapidly, the contact angle decreased, when the TiO2 concentration reached 0.3% and 3% binder compounding, the surface of the composite coating film was still smooth at the nanometer level, the visible light transmittance was between 86.95%-88.89%, and the contact angle was reduced from the initial 46.49° to 14.89° after 2h of ultraviolet illumination. After 5 repeated degradation experiments and outdoor 180D standing test, the composite coating film has recyclability and good durability. Therefore, TiO2 composite coating prepared by this method has a wide application prospect in the daily cleaning and subsequent maintenance of building glass.

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Changes in the intestinal microbiota of healthy adults induced by brown yogurt and relationships of bacterial taxa with specific components

Jiang

Liang

Liu³

et al. 2022

Food Funct.

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Yi Liang

Preparation of lightweight ceramsite from remediated soil, waste glass and ceramics

Preparation and properties of TiO2 photocatalytic self—cleaning coating material for glass

Changes in the intestinal microbiota of healthy adults induced by brown yogurt and relationships of bacterial taxa with specific components

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