Stability of P Saturated Water Treatment Residuals under Different Levels of Dissolved Oxygen

Wang, Changhui; Fei, Chengbo; Pei, Yuansheng

doi:10.1002/clen.201100663

Cited by 10 publications

(1 citation statement)

References 47 publications

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“…[2] The high P adsorption capacity of WTRs can remain stable under various conditions, [3][4][5] and the adsorbed P is not readily desorbed. [6,7] WTRs have also been used as a soil amendment to reduce P loss, [8] as a substrate in constructed wetlands to remove excessive P from wastewater [9] and as a stabilizer to control P release from sediments. [10] The reuse of WTRs as metal adsorbents is another area of interest for investigators.…”

Section: Introductionmentioning

confidence: 99%

Comparison of metal lability in air-dried and fresh dewatered drinking water treatment residuals

Wang

Pei

Zhao

2015

Journal of Environmental Science and Health, Part A

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In this work, the labilities of Al, As, Ba, Be, Ca, Cd, Co, Cr, Cu, Fe, Mg, Mn, Mo, Ni, Pb, Sr, V and Zn in air-dried (for 60 days) and fresh dewatered WTRs were compared using the Toxicity Characteristic Leaching Procedure (TCLP), fractionation, in vitro digestion and a plant enrichment test. The results showed that the air-dried and fresh dewatered WTRs had different properties, e.g., organic matter composition and available nutrients. The air-dried and fresh dewatered WTRs were non-haf zardous according to the TCLP assessment method used in the United States; however, the metals in the two types of WTRs had different lability. Compared with the metals in the fresh dewatered WTRs, those in the air-dried WTRs tended to be in more stable fractions and also exhibited lower bioaccessibility and bioavailability. Therefore, air-drying can decrease the metal lability and thereby reduce the potential metal pollution risk of WTRs.

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Section: Introductionmentioning

confidence: 99%

Comparison of metal lability in air-dried and fresh dewatered drinking water treatment residuals

Wang

Pei

Zhao

2015

Journal of Environmental Science and Health, Part A

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Effects of light, microbial activity, and sediment resuspension on the phosphorus immobilization capability of drinking water treatment residuals in lake sediment

Wang

Pei

2013

Environ Sci Pollut Res

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Drinking water treatment residuals (WTRs), nonhazardous by-products generated in a drinking water treatment plant, can be reused to immobilize phosphorus (P) to control the internal P loading from lake sediments for eutrophication control. Reasonably, before practical application, it is essential to determine the P immobilization capability of WTRs in lake sediments under various conditions. In this work, laboratory scale experiments were conducted to investigate the effects of light, microbial activity, and sediment resuspension on the P immobilization capability of WTRs. The results suggested that absence of light, low microbial activity, and sediment resuspension can increase the internal P loading from lake sediments. WTRs can, however, reduce the internal P loading significantly. Further analysis demonstrated that WTRs can stabilize P, decreasing the P bioavailability in the sediments under varied conditions. WTRs also presented little undesirable effects on the dissolved oxygen levels and pH of overlying water. Therefore, light, microbial activity, and sediment resuspension have little effect on the P immobilization capability of WTRs in lake sediments.

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Review: recent developments of substrates for nitrogen and phosphorus removal in CWs treating municipal wastewater

Shen

Cheng

et al. 2020

Environ Sci Pollut Res

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Stability of P Saturated Water Treatment Residuals under Different Levels of Dissolved Oxygen

Cited by 10 publications

References 47 publications

Comparison of metal lability in air-dried and fresh dewatered drinking water treatment residuals

Comparison of metal lability in air-dried and fresh dewatered drinking water treatment residuals

Effects of light, microbial activity, and sediment resuspension on the phosphorus immobilization capability of drinking water treatment residuals in lake sediment

Review: recent developments of substrates for nitrogen and phosphorus removal in CWs treating municipal wastewater

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