M. Garzón-Zúñiga, J. A. Navarro-Franco, Iván Moreno Andrade
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引用次数: 0
Abstract
Recently, using residual Aluminum sludge (Al-sludge) from drinking water treatment plants for Phosphorus removal has been assessed and it has shown to be highly efficient. However, most of the studies have been conducted using synthetic water. Only a few works have applied this method to real wastewater (WW), and none of them have been tested in continuous mode, as a polishing step, in a pilot-scale, decentralized wastewater treatment plant (WWTP). This paper aimed to evaluate the performance of an immersed filter packed with a bed of residual Al-sludge as a polishing system for Phosphorous removal, in a pilot-scale, decentralized WWTP. The study determined at laboratory-scale the capacity for Phosphorus removal through batch and continuous tests using both synthetic and real wastewater and evaluated the effect of retention time. Based on the results, an Al-sludge immersed filter (Al-sludge Filter) at pilot-scale was constructed, implemented, and evaluated as a polishing step for the effluent of a decentralized-WWTP. The results showed that during continuous testing with real WW, the Phosphorus removal capacity was 2.55 mg P-PO43-∙L-1 using a retention time of 120 min. The Al-sludge filter as a polishing system presented an average removal efficiency of 94% ± 8% and an effluent concentration of under 0.50 mg P-PO43-∙L-1 during the first 20 operational days. For the next 17 days, the system removed 85% ± 9% on average, showing an effluent concentration of under 1.0 mg P-PO43-∙L-1. From operational day 32 onwards, the removal efficiency was 63.6% ± 10.7%, with an average effluent concentration of 2.20 ± 0.39 mg P-PO43-∙L-1.
期刊介绍:
Published by the Mexican Institute of Water Technology, Water Technology and Sciences (Tecnología y ciencias del agua) is a highly specialized journal which reflects two important characteristics:
The interdisciplinary nature of its articles and notes.
The international scope of its authors, editors, reviewers, and readers.
It constitutes the continuity of the journal Irrigación en México (Irrigation in Mexico) (1930-1946); Ingeniería hidráulica en México (Hydraulic Engineering in Mexico) (1947-1971); Recursos hidráulicos (Hydraulic Resources) (1972-1978), and Ingeniería hidráulica en México, second period (1985-2009).
The journal is aimed at researchers, academics, and professionals who are interested in finding solutions to problems related to the water.
The journal’s contents are interdisciplinary and contain previously unpublished articles and notes that offer original scientific and technological contribution that are developed in the fields of knowledge related to the following disciplines:
Water and energy.
Water quality.
Hydro-agricultural sciences.
Political and social science.
Water management.
Hydrology.
Hydraulics.