Your search keyword '"Zhai Chengwei"' showing total 9 results

1. A nanoprecursor method for successfully synthesizing clinoptilolite with high-crystallinity and resultant effects on CO2/CH4 selective adsorption

Author

Jihong Sun, Anadil Gul, Bingying Jia, Zhai Chengwei, and Shiyang Bai

Subjects

Crystallinity, Clinoptilolite, Adsorption, Chemical engineering, Chemistry, General Chemical Engineering, Selective adsorption, Induction period, Nucleation, Phillipsite, General Chemistry, Hydrothermal circulation

Abstract

Nanoprecursors used as a structural promoter (SP) were prepared by a hydrothermal method and named sol-SP. After centrifugation, the supernatant and precipitate were denoted as solution-SP and solid-SP, respectively. The effect of the additive amount on the structures and properties of the synthesized clinoptilolite was investigated using various characterization techniques. The activation energies of crystallization kinetics during induction and growth periods were calculated. The results showed that the induction period is the control step during the synthesis of clinoptilolite, while additive sol-SP or solid-SP was beneficial to shorten the induction period and therefore enhance the formation of the crystal nucleus. When their pre-crystallization time was too long or the additive amount was too much, the impure phase (phillipsite) in the synthesized clinoptilolite was easily generated. Although the addition of solution-SP had no obvious effect on the induction period, it promoted the growth of crystals after nucleation. Finally, the adsorption performances for CO2 and CH4 were preliminarily assessed using synthetic clinoptilolite as the adsorbent, showing the promising application for the separation of CO2/CH4.

Published

2021

2. One-step synthesis of hydrophobic clinoptilolite modified by silanization for the degradation of crystal violet dye in aqueous solution

Author

Zhai Chengwei, Jihong Sun, Raza Ullah, Jiao Jian, and Shiyang Bai

Subjects

chemistry.chemical_compound, Clinoptilolite, Aqueous solution, Adsorption, chemistry, Chemical engineering, General Chemical Engineering, Induction period, Silanization, Nucleation, General Chemistry, Crystal violet, Catalysis

Abstract

Hydrophobic clinoptilolite (CP) was successfully synthesized via a silanization method using methyltriethoxysilane (MTS) or diethoxydimethylsilane (DMTS) as silane coupling agents. The structural and textural properties of the resultant hydrophobic CP were characterized using various methods. The effect of the amount of MTS or DMTS additive on the induction (nucleation) and growth of CP were also investigated, and the apparent activation energy values for induction and growth periods were calculated, suggesting that the induction period is kinetically controlled, while the rapid growth process is thermodynamically controlled. Meanwhile, DMTS modification enhanced the hydrophobicity of CP compared with its MTS-modified counterpart and pure CP. Finally, various ZnO-supported CPs were used as photocatalysts for the removal of crystal violet from aqueous solution, demonstrating that ZnO/hydrophobic CP has the largest adsorption capacity and best removal performance. These results suggest that hydrophobic CP, as an adsorbent or support, has the most potential for applications in separation and catalysis.

Published

2020

3. A stochastic contact network model for assessing outbreak risk of COVID-19 in workplaces

Author

Guo, Xi, primary, Gupta, Abhineet, additional, Sampat, Anand, additional, and Zhai, Chengwei, additional

Published

2022

4. Protective impacts of household-based tuberculosis contact tracing are robust across endemic incidence levels and community contact patterns

Author

Havumaki, Joshua, primary, Cohen, Ted, additional, Zhai, Chengwei, additional, Miller, Joel C., additional, Guikema, Seth D., additional, Eisenberg, Marisa C., additional, and Zelner, Jon, additional

Published

2021

5. A nanoprecursor method for successfully synthesizing clinoptilolite with high-crystallinity and resultant effects on CO2/CH4 selective adsorption

Author

Zhai, Chengwei, primary, Sun, Jihong, additional, Jia, Bingying, additional, Gul, Anadil, additional, and Bai, Shiyang, additional

Published

2021

6. One-step synthesis of hydrophobic clinoptilolite modified by silanization for the degradation of crystal violet dye in aqueous solution

Author

Jiao, Jian, primary, Sun, Jihong, additional, Ullah, Raza, additional, Bai, Shiyang, additional, and Zhai, Chengwei, additional

Published

2020

7. A nanoprecursor method for successfully synthesizing clinoptilolite with high-crystallinity and resultant effects on CO2/CH4 selective adsorption.

Author

Zhai, Chengwei, Sun, Jihong, Jia, Bingying, Gul, Anadil, and Bai, Shiyang

Published

2021

8. Multi-Stage Prediction for Zero-Inflated Hurricane Induced Power Outages

Author

Shashaani, Sara, primary, Guikema, Seth D., additional, Zhai, Chengwei, additional, Pino, Jordan V., additional, and Quiring, Steven M., additional

Published

2018

9. A nanoprecursor method for successfully synthesizing clinoptilolite with high-crystallinity and resultant effects on CO 2 /CH 4 selective adsorption.

Author

Zhai C, Sun J, Jia B, Gul A, and Bai S

Abstract

Nanoprecursors used as a structural promoter (SP) were prepared by a hydrothermal method and named sol-SP. After centrifugation, the supernatant and precipitate were denoted as solution-SP and solid-SP, respectively. The effect of the additive amount on the structures and properties of the synthesized clinoptilolite was investigated using various characterization techniques. The activation energies of crystallization kinetics during induction and growth periods were calculated. The results showed that the induction period is the control step during the synthesis of clinoptilolite, while additive sol-SP or solid-SP was beneficial to shorten the induction period and therefore enhance the formation of the crystal nucleus. When their pre-crystallization time was too long or the additive amount was too much, the impure phase (phillipsite) in the synthesized clinoptilolite was easily generated. Although the addition of solution-SP had no obvious effect on the induction period, it promoted the growth of crystals after nucleation. Finally, the adsorption performances for CO 2 and CH 4 were preliminarily assessed using synthetic clinoptilolite as the adsorbent, showing the promising application for the separation of CO 2 /CH 4 ., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2021