Abstract
Reclaimed water is an important supplementary source for fresh water. Purification is necessary prior to utilization in order to minimize the pollution and human-health risk. A three-year experiment was carried out to study the removal of nitrogen and organics through a simulated soil aquifer treatment (SAT) system under continuous wetting and wetting/drying conditions. The removal performance of nitrogen and chemical oxygen demand (COD) was improved in the wetting/drying column. The average removal efficiencies of the three years were 51% and 78% for the NO3–N, 41% and 51% for the NH4–N, and 40% and 50% for the COD in the continuous wetting and wetting/drying columns. Nitrogen and COD removal mainly took place within the top 20 cm of the columns, which was highly correlated with the distribution of microorganisms. The amount of microorganisms was also positively correlated with the content of organic matter and dissolved oxygen (DO) in both soil columns. NO3–N can be removed effectively via aerobic denitrifying bacteria as the DO concentration was 3–6 mg/L. DO and NO3–N were simultaneously reduced as the electron acceptors for COD degradation, and DO only accounted for 40% of total electron acceptor in COD degradation for the continuous wetting column. Nitrogen and COD can be effectively and steadily removed from reclaimed water during the long-term operation of a SAT system.
Highlights
IntroductionMarginal-quality water (e.g., reclaimed water) has served as an important resource due to the shortage of fresh water
Marginal-quality water has served as an important resource due to the shortage of fresh water
The following conclusions can be drawn: (1) Aerobic denitrifying bacteria exists in the simulated Soil aquifer treatment (SAT) system, and denitrification can take place when the dissolved oxygen (DO) concentration is around 3–6 mg/L
Summary
Marginal-quality water (e.g., reclaimed water) has served as an important resource due to the shortage of fresh water. With most contaminants being removed compared to wastewater, is still characterized by a higher load of nutrients, dissolved organic matters, suspended solids and a more considerable salinity than fresh water. The salinity level in reclaimed water is about 1.5–2 times higher than that of fresh water. As compared with fresh water, reclaimed water always contains a relatively high nitrogen content [2,3]. Direct use of reclaimed water (e.g., agriculture irrigation, river and lake recharge) has a risk of surface- and ground-water contamination [4,5], especially where groundwater is pumped for potable purposes. Reclaimed water is usually purified prior to its utilization to minimize the risk of pollution. Soil aquifer treatment (SAT) is one of the widely used approaches to removing contaminants in reclaimed water
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