Che Xuan scite author profile

Che Xuan

2Publications

5Citation Statements Received

25Citation Statements Given

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Shanghai Ocean University

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Nitrate and phosphate removal in sulphur-coral stone autotrophic denitrification packed-bed reactors

Ruan

Luo

Tan

et al. 2013

Journal of Environmental Engineering and Science

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The removal effect on nitrate and phosphate of a sulphur-based autotrophic denitrifying bioreactor in composite packing of sulphur with coral stone were investigated on a pilot scale. The results showed that the optimal influent loading rate of the bioreactor (the ratio of sulphur volume to coral stone volume was 1:1) was in the range of 0·080 – 0·244 kg NO3−-N/(m3·d) when the water temperature was 29 ± 1 °C. In this range, the removal efficiency of nitrates was higher than 95% and no nitrite accumulation occurred in the effluent. The maximum nitrate volumetric removal rate of 0·594 kg NO3−-N / (m3·d) was achieved at an influent loading rate of 0·716 kg NO3−-N/(m3·d) with obvious nitrite accumulation in the effluent. Along with the autotrophic denitrifying reaction, an influent loading rate between 0·070 – 0·210 kg PO43−-P/ (m3·d) achieved the removal efficiency and volumetric removal rate of phosphates were 50·5% – 89·2% and 0·045 – 0·179 kg PO43−-P/(m3·d), respectively. The phosphates related to the resistance ability of the bioreactor (the ratio of sulphur volume to coral stone volume was 1:1) was stronger than that of bioreactors (the ratio of sulphur volume to coral stone volume was 1:2 and 1:4).

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Greenhouse gas emissions and comprehensive greenhouse effect potential of Megalobrama amblycephala culture pond ecosystems in a 3-month growing season

Zhu¹,

Xuan²,

Liu³

et al. 2015

Aquacult Int

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In this study, we assess the greenhouse gas emissions and greenhouse effect potential of a Wuchang bream (Megalobrama amblycephala) aquaculture. We used the 'static opaque chamber-gas chromatography method' to determine in situ emissions of greenhouse gases in the 3-month growing season (CO 2 , CH 4 , and N 2 O) from bream culturing ponds. We detected emissions of all three gases from the ponds, with CO 2 emission far exceeding the other gases in the 3-month growing season (CO 2 = 278.54 ± 36.41 g/m 2 , CH 4 = 23.73 ± 5.27 g/m 2 , and N 2 O = 1.69 ± 0.32 g/m 2 ). We calculated that in one growing season this ecosystem would have a total emission of CO 2 equivalent of 15.86 t CO 2 /hm 2 , indicating its ability to contribute to global warming via the greenhouse effect.

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Che Xuan

Nitrate and phosphate removal in sulphur-coral stone autotrophic denitrification packed-bed reactors

Greenhouse gas emissions and comprehensive greenhouse effect potential of Megalobrama amblycephala culture pond ecosystems in a 3-month growing season

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