Y. Zhang scite author profile

Y. Zhang

3Publications

80Citation Statements Received

31Citation Statements Given

How they've been cited

205

How they cite others

Affiliations

State Key Joint Laboratory of Environment Simulation and Pollution Control, Beijing Normal University

Publications

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Novel insight into VOC removal performance of photocatalytic oxidation reactors

Mo¹,

Zhang²,

Yang³

2005

Indoor Air

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Indoor air quality problem caused by volatile organic compounds (VOCs) have annoyed people for many years. Photocatalytic oxidation (PCO) appears to be a promising technique for destroying VOCs in indoor air. With the model and the novel insight presented in this paper, the influence of various factors on the VOC removal performance can be determined. And the bottleneck for improving the performance of a PCO reactor can be easily identified. These are helpful for designing high performance PCO reactors and optimizing their operative performance.

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Remediation technology for the uranium contaminated environment: a review

Zhang

2012

Procedia Environmental Sciences

114

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Bioremediation of Contaminated Surface Water by ImmobilizedMicrococcus roseus

Li²,

Hua³

et al. 2005

Environmental Technology

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The problems caused by contaminated surface water have gradually become more serious in recent years. Although various remediation technologies were investigated, unfortunately, no efficient method was developed. In this paper, a new bioremediation technology was studied using Micrococcus roseus, which was immobilized in porous spherical beads by an improved polyvinyl alcohol (PVA) - sodium alginate (SA) embedding method. The experimental results indicated that COD removal rate could reach 64.7 % within 72 hours when immobilized M. roseus beads were used, which was ten times as high as that of free cells. The optimum inoculation rate of immobilized M. roseus beads was 10 % (mass percent of the beads in water sample, g g(-1)). Suitable aeration was proved necessary to enhance the bioremediation process. The immobilized cells had an excellent tolerance to pH and temperature changes, and were also more resistant to heavy metal stress compared with free cells. The immobilized M. roseus beads had an excellent regeneration capacity and could be reused after 180-day continuous usage. The Scanning Electronic Microscope (SEM) analysis showed that the bead microstructure was suitable for M. roseus growth, however, some defect structures should still be improved.

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Y. Zhang

Novel insight into VOC removal performance of photocatalytic oxidation reactors

Remediation technology for the uranium contaminated environment: a review

Bioremediation of Contaminated Surface Water by ImmobilizedMicrococcus roseus

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