Trace elements, anions, and carbohydrates in the recirculating aquaculture system using woodchip denitrification, constructed wetland, and sand infiltration

IF 2.4 4区 环境科学与生态学 Q2 WATER RESOURCES
P. Lindholm-Lehto, A. Lindroos, J. Pulkkinen, T. Kiuru, J. Vielma
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引用次数: 1

Abstract

A recirculating aquaculture system (RAS) aims to achieve fish production with negligible discharge into the environment. RASs have been applied for fish production in several countries, but nitrate removal is often a limiting factor for production increases. In this study, a pilot-scale RAS (10 tons of fish/year) was connected to a water treatment field which consisted of a denitrifying woodchip bioreactor (9 m × 14 m) filled with birch woodchips (Betula pendula), a constructed wetland (7.5 m × 6 m), and sand infiltration (16 m × 31 m) to achieve high water quality with low-maintenance treatment units. In the constructed wetland, a perennial common reed (Phragmites australis) was used in a well-drained soil for nutrient re-use. Concentrations of different elements, diluted anions, and selected hydrocarbons were monitored and quantified. Some Mn leaching occurred during the sand infiltration stage. However, Mn concentrations decreased towards the end of the experiment. Concentrations of total-Fe increased up to 2.75 mg L−1 and Mn up to 5 mg L−1 in.the sand infiltration stage of the water treatment field, probably due to anoxic conditions and leaching of fine particles. This type of process design offers effective but low-maintenance treatment of circulating water.
利用木片脱氮、人工湿地和沙子渗透的循环水产养殖系统中的微量元素、阴离子和碳水化合物
循环水产养殖系统(RAS)旨在实现向环境排放可忽略不计的鱼类生产。RAS已在几个国家应用于鱼类生产,但硝酸盐的去除往往是产量增加的限制因素。在本研究中,一个中试规模的RAS(10吨鱼/年)与一个水处理场相连,该水处理场由一个装有桦树木屑(Betula pendula)的反硝化木片生物反应器(9m×14m)、一个人工湿地(7.5m×6m)和沙子渗透(16m×31m)组成,以低维护处理单元实现高水质。在人工湿地中,在排水良好的土壤中使用多年生普通芦苇(芦苇)进行养分再利用。对不同元素、稀释阴离子和选定碳氢化合物的浓度进行监测和定量。部分锰浸出发生在入砂阶段。然而,在实验接近尾声时,Mn浓度有所下降。在水处理场的砂渗透阶段,总Fe浓度增加到2.75 mg L−1,Mn浓度增加到5 mg L–1,这可能是由于缺氧条件和细颗粒的浸出。这种类型的工艺设计提供了有效但低维护的循环水处理。
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CiteScore
4.50
自引率
8.70%
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