1. Pollutant removal from swine wastewater and kinetics in constructed rapid infiltration system (CRI system)
- Author
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Pu Shihua, Long Dingbiao, Jian Yue, Zeng Yaqiong, Wang Hao, Zuohua Liu, and Zhu Jiaming
- Subjects
Pollutant ,Mass removal ,Chemistry ,Kinetics ,General Medicine ,Ammonia nitrogen ,Infiltration (hydrology) ,Wastewater ,Swine wastewater ,Environmental chemistry ,Environmental Chemistry ,Waste Management and Disposal ,Effluent ,Water Science and Technology - Abstract
The purpose of this paper is centered on kinetics of removal of main pollutants in wastewater and to compared different hydraulic loading conditions of the constructed rapid infiltration system (CRI system) in terms of removal efficiencies, effluent concentrations, mass removal rate (MRR), and the first-order removal rate coefficient (k) of COD,TOC,NH4+-N,TN and TP. The results showed that the higher the hydraulic loading, the higher the effluent concentration. The results that synthesized hydraulic loading, effluent concentrations, removal efficiencies, and other conditions showed that the best hydraulic loading was 40 cm/d. When the hydraulic load was 40 cm/d, the effluent average concentrations of COD, TOC,NH4+-N,TN, TP,Cu2+ and the removal efficiencies were27.31±16.40 mg/L, 86.11%, 10.55±5.25 mg/L, 84.64%, 0.59±0.87 mg/L, 99.60%, 143.31±14.77mg/L, 7.04%, 5.64±1.38 mg/L, 79.20%, and 0.13±0.47mg/L, 97.51%, respectively. According to a kinetic study of the primary pollutants, the MRR increased with an increase in the hydraulic loading, except for ammonia nitrogen. CRI-3, CRI-4 were high significant correlated with ammonia nitrogen (with R2= 93.65% and R2=95.03% respectively), while CRI-2, CRI-3 and CRI-4 were high significant correlated with total nitrogen (with R2=94.56%, R2= 96.70% and R2= 96.56% respectively).
- Published
- 2021