Assessment of current status of zinc in wastewater treatment plants to set effluent standards for protecting aquatic organisms in Japan

Yamagata, Hiroki; Yoshizawa, Masahiro; Minamiyama, Mizuhiko

doi:10.1007/s10661-009-1151-y

Cited by 13 publications

(3 citation statements)

References 8 publications

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“…The amount of zinc ion was determined to be 0.028 μg L −1 , which was within the acceptable range of the World Health Organization (WHO). 112,113 Since aniline is a highly toxic monomer, GC-MS analysis was used to explore whether the monomer remained in the composite structure. For comparison, some aniline was first dissolved in ethanol, and the GC-MS spectrum was investigated.…”

Section: Resultsmentioning

confidence: 99%

Highly efficient, bioactive, and bifunctional sorbent p–n–p visible light heterogeneous photocatalyst utilizing ultra-fine ZnS nanoparticles embedded in a polymeric nanocomposite

et al. 2022

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Section: Resultsmentioning

confidence: 99%

Highly efficient, bioactive, and bifunctional sorbent p–n–p visible light heterogeneous photocatalyst utilizing ultra-fine ZnS nanoparticles embedded in a polymeric nanocomposite

et al. 2022

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“…The current EQS was the first standard in Japan for protection of aquatic organisms and was enacted in 2003. Before the current EQS of zinc was developed, zinc standards had been administered under the limits for industrial wastewater (5 mg/L) which is more than 100 times higher compared to the current EQS (Matsuzaki, 2011), while the current effluent standards of zinc were set at 2 mg/L in 2006 (Yamagata, Yoshizawa, & Minamiyama, 2010).…”

Section: Discussionmentioning

confidence: 99%

Study of zinc pollution in river water: Average mass balance based on irrigation schedule

Andarani

Yokota

Saga

et al. 2020

River Research & Apps

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Aichi Prefecture, which has a dense industrial area, is one of the sites in Japan where the levels of zinc are elevated. However, currently, there is no clear evidence of the source of zinc in this prefecture. This study aims to assess zinc concentration and load in a river and identify the main sources of zinc pollution. We conducted a 20‐month survey to identify the temporal and spatial variation of zinc in river water, particularly in the Aizumame River. Using Flame Atomic Absorption Spectrometry, the total fraction of zinc concentrations was determined for nine sampling stations (five points in the mainstream and four points in the tributaries). The results show that the average of zinc concentration was lower during the irrigation period than in the non‐irrigation period. However, the load during the irrigation period was higher. During irrigation, the river discharges were higher resulting in a lower concentration. The highest zinc concentration was 0.139 mg/L in June 2017. Based on this study, the main zinc source was identified from industrial areas which on average contributed about 3,400 g/day into the mainstream. These results became more evident during the non‐irrigation period when only industrial discharges contributed zinc load into the mainstream.

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“…However, effluent remained within the standard before discharged to environment. From both plants, extreme concentration of zinc presented in aeration tank might be transferring from activated sludge in aeration tank to aqueous phase along with transformation particulate zinc to aqueous phase in this unit (Yamagata et al 2010). Zn concentration was decreased after aeration tank with related to the decrease of TKN level.…”

Section: Heavy Metals In Wastewatermentioning

confidence: 88%

Ecological risk assessment of microplastics and heavy metals in central industrial wastewater treatment plant

Phuprasert

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Microplastics become a big concern in environment. Their small particle size can absorb a variety of pollutants from the nearby environment when discharged into the environment, especially heavy metals. Central industrial wastewater treatment plant (WWTP) is an important source of microplastics in the environment. In this study, wastewater and sludge were collected from two industrial estates in Thailand. Wastewater was collected from 4 points i.e., influent, post grit chamber, post aeration tank, and post sedimentation tank while sludge was collected from sludge storage. Concentration of microplastics, heavy metals and heavy metals on microplastics were examined to evaluate ecological risk assessment. Based on the results, microplastics concentration in effluent and sludge were 11.04 ? 0.08 particles/L, 2,398.00 ? 11.37 particles/kg from WWTP A, while 33.53 ? 0.55 particles/L, 1,930.00 ? 7.57 particles/kg from WWTP B, respectively. In addition, main shape, size, colors, and polymer were pellet, range 100 500 ?m, white/clear, and polypropylene polymer from both sites, respectively. In terms of heavy metals, zinc was the most detected in wastewater, sludge, and on microplastics. The risk assessment was carried out. The result found that polymer risk index (H) showed 35,835 in WWTP A and 45,652 in WWTP B, which high toxic level. High risk of pollution load index (PLI) with category IV (97.82) was showed in WWTP A, while PLI of WWTP B were presented in category II (12.76). For geo-accumulation Index (Igeo), all heavy metals presented in low degree level, except Cd and Se from WWTP A presented as low toxic (0.7) and moderate toxic (1.2), respectively. Potential ecological risk (PER) of microplastics presented extreme danger (48,893 and 20,087 from WWTP A and WWTP B, respectively.), while PER of heavy metals also showed low toxic level with 70.71 and moderate toxic with 96.61 from WWTP A and WWTP B, respectively. Furthermore, PER of heavy metals on microplastics exhibited 48,936.63 and 20,183.61 from WWTP A and WWTP B, respectively, which extreme danger level.

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Assessment of current status of zinc in wastewater treatment plants to set effluent standards for protecting aquatic organisms in Japan

Cited by 13 publications

References 8 publications

Highly efficient, bioactive, and bifunctional sorbent p–n–p visible light heterogeneous photocatalyst utilizing ultra-fine ZnS nanoparticles embedded in a polymeric nanocomposite

Highly efficient, bioactive, and bifunctional sorbent p–n–p visible light heterogeneous photocatalyst utilizing ultra-fine ZnS nanoparticles embedded in a polymeric nanocomposite

Study of zinc pollution in river water: Average mass balance based on irrigation schedule

Ecological risk assessment of microplastics and heavy metals in central industrial wastewater treatment plant

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