Removal of micropollutants through a biological wastewater treatment plant in a subtropical climate, Queensland-Australia

Cardenas, Miguel Antonio Reyes; Ali, Imtiaj; Lai, Foon Yin; Dawes, Les; Thier, Ricarda; Rajapakse, Jay

doi:10.1186/s40201-016-0257-8

Cited by 47 publications

(30 citation statements)

References 39 publications

(50 reference statements)

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“…According to regulation [1], the maximum permissible COD value for domestic or municipal sewage introduced into the aquatic or terrestrial environment is 150 mg O 2 /L. For BOD 5 , these values are 25 mgO 2 /L or minimal pollutant reduction 70-90% for purified wastewater introduced into the aquatic environmental or at least 20% if it is introduced into the ground [1]. The reduction of BOD 5 and COD above 90% was obtained as a result of purification in sewage treatment plants of the ORS and SBR-K-6 type.…”

Section: Resultsmentioning

confidence: 99%

“…In case of residential wastewater treatment plants (RWTPs) which work with the use of the classic activated sludge, their proper operation is negatively affected by shifts in the pollutant load and wastewater volume as well as changing environmental conditions. The highest threat for such systems is associated with the presence of surface active compounds (surfactants) [3][4][5][6][7]. In 2010 the production of surface active agents in Poland reached 81 thousand tons.…”

Section: Introductionmentioning

confidence: 99%

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Evaluation of surfactant removal efficiency in selected domestic wastewater treatment plants in Poland

Kruszelnicka

Ginter-Kramarczyk

Wyrwas

et al. 2019

J Environ Health Sci Engineer

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The aim of this study was to evaluate the work of a two types of household sewage treatment plant: wetland wastewater treatment plant (ORS type) and treatment plant of SBR type (SBR-K-6 type). Physicochemical analyses of selected pollution indices (BOD 5 , COD, total suspension, total phosphorus) and surfactants were carried out and compared with currently applicable values of such indexes according to the Regulation of the Minister of the Environment in Poland on the conditions to be met when discharging sewage into water or soil, and on the substances particularly harmful to the aquatic environment. The removal efficiency of organic compounds, expressed as COD and BOD 5 , reached the threshold of 90%, which is required in regulations. In contrast, the effects of removal of biogenic compounds were lowin case of total nitrogen the removal rate reached approx. 40% and the desired admissible concentration of 30 mg N/L was not achieved. The reduction efficiency of total suspended solids reached 57.0 and 59.6% for the ORS and SBR-K-6 type objects, respectively, and therefore the required threshold of minimum 90% was not reached. Anionic surfactants were removed by up to 98 and 88% in the ORS and SBR-K-6 type wastewater treatment plants, respectively. Lower removal efficiency was achieved in case on non-ionic surfactants, which reached 76% for the ORS type object and 56% for the SBR-K-6 type object. This article proven high wastewater treatment efficiency and lower than necessary concentrations in the effluent from domestic wastewater treatment plants may be achieved mainly by proper exploitation of the devices and appropriately selected vegetation.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Evaluation of surfactant removal efficiency in selected domestic wastewater treatment plants in Poland

Kruszelnicka

Ginter-Kramarczyk

Wyrwas

et al. 2019

J Environ Health Sci Engineer

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“…Different methods have been developed and used for the treatment of wastewater. Some of the adopted techniques are centrifugation (Peeters 2015), filtration (Cardenas et al 2016), flotation (de Oliveira da Mota et al 2015), evaporation (Li et al 2016), distillation (Ji 2018), ion exchange (Tan et al 2017), precipitation (Sun et al 2017), electrolysis (Huang et al 2016), electrodialysis (Akhter et al 2018), adsorption (Guillaume et al 2018;You et al 2019), crystallization (Lu et al 2017), micro and ultra-filtration (Pinto et al 2017), sedimentation and gravity separation, reverse osmosis (Venzke et al 2017), and coagulation (Mousa and Hadi 2016). However, these prevailing technologies have some setbacks such as being time-consuming and costly and leading to the generation of toxic sludge.…”

Section: Wastewater Treatmentmentioning

confidence: 99%

Application of TiO2 and ZnO nanoparticles immobilized on clay in wastewater treatment: a review

et al. 2020

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Increase in industrial and anthropogenic activities leads to a decline in water quality. This necessitates the need for the removal of contaminants from industrial and domestic wastewater. Clay minerals are naturally abundant and non-toxic materials that found to be useful for remediation of emerging contaminants from wastewater. This review paper presents an insight into clay, the simplest material (in solgel techniques) for the synthesis of TiO 2 and ZnO, mechanisms of their reactions, analytical techniques used for characterizations, and their nanocomposites for wastewater treatment. Nanomaterials, such as nanoclay, titanium, and zinc oxide, have offered the opportunities of sequestering variety of pollutants in wastewater. TiO 2 and ZnO anchored on clay have been found to be good promising sequesters and have been explored for wastewater remediation via nanotechnology. This water treatment method includes adsorption/absorption, photocatalysis, and microbial disinfection. These nanocomposites provide more active surface sites and reduce the agglomeration of the nanoparticles, but leaching has been their shortcomings. To overcome this, the filtration technique may become significant for the removal and avoidance of fouling of wastewater. This can be achieved through the fabrication of nano-based filters using the nanocomposites.

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“…Falas et al (2016) reported ACE removal of up to 80% in bench-scale reactors with activated sludge from municipal wastewater. Cardenas et al (2016) measured ACE removal of >90% in a WWTP in Queensland (Australia).…”

Section: Emerging Biodegradability Of Acesulfamementioning

confidence: 99%

Sated by a Zero-Calorie Sweetener: Wastewater Bacteria Can Feed on Acesulfame

et al. 2019

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The widely used artificial sweetener acesulfame K has long been considered recalcitrant in biological wastewater treatment. Due to its persistence and mobility in the aquatic environment, acesulfame has been used as marker substance for wastewater input in surface water and groundwater. However, recent studies indicated that the potential to remove this xenobiotic compound is emerging in wastewater treatment plants worldwide, leading to decreasing mass loads in receiving waters despite unchanged human consumption patterns. Here we show evidence that acesulfame can be mineralized in a catabolic process and used as sole carbon source by bacterial pure strains isolated from activated sludge and identified as Bosea sp. and Chelatococcus sp. The strains mineralize 1 g/L acesulfame K within 8–9 days. We discuss the potential degradation pathway and how this novel catabolic trait confirms the “principle of microbial infallibility.” Once the enzymes involved in acesulfame degradation and their genes are identified, it will be possible to survey diverse environments and trace back the evolutionary origin as well as the mechanisms of global distribution and establishment of such a new catabolic trait.

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Removal of micropollutants through a biological wastewater treatment plant in a subtropical climate, Queensland-Australia

Cited by 47 publications

References 39 publications

Evaluation of surfactant removal efficiency in selected domestic wastewater treatment plants in Poland

Evaluation of surfactant removal efficiency in selected domestic wastewater treatment plants in Poland

Application of TiO2 and ZnO nanoparticles immobilized on clay in wastewater treatment: a review

Sated by a Zero-Calorie Sweetener: Wastewater Bacteria Can Feed on Acesulfame

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