PAH REMOVAL EFFICIENCY IN SURFACTANT-ENHANCED SOIL WASHING SYSTEMS: INFLUENCE OF PAH RING NUMBER AND SOIL PROPERTIES

Since 1984 investigations concerning sewage technology, plant physiology and soil properties have been carried out on the reed bed system at Mannersdorf/Leithagebirge (local loamy soil, Phragmites, planted area 3×150 m2, influent 30 - 50 mm/d). The removal efficiency of COD and BOD5 amounts to 80-90 % and 90 - 98 %, respectively. Elimination of nutrients (NTOT and PTOT) varies from 3 0 to 60 %, in general. Total nitrification cannot be reported for any of the plots fed with different sewage qualities. Nutrient uptake of NTOT and PTOT by Phragmites a. reaches 30 or 15 % of influent sewage load during July and August but is of no importance with respect to the average of the year. The proportion of PTOT in the soil is still increasing every year and now amounts to about 450 mg/100g soil. The concentration of phosphorus essentially stagnates at the level of 50 mg/100g soil.

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Utilizing wetlands for phosphorus reduction in Great Lakes watersheds : a review of available literature examining soil properties and phosphorus removal efficiency

10.21079/11681/24838 ◽

2017 ◽

Cited By ~ 3

Author(s):

Steven Currie ◽

Christine VanZomeren ◽

Jacob Berkowitz

Keyword(s):

Great Lakes ◽

Soil Properties ◽

Removal Efficiency ◽

Phosphorus Removal ◽

Phosphorus Reduction

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Soil washing with biodegradable chelating agents and EDTA: Effect on soil properties and plant growth

Chemosphere ◽

10.1016/j.chemosphere.2020.127673 ◽

2020 ◽

Vol 260 ◽

pp. 127673

Author(s):

Anela Kaurin ◽

Simon Gluhar ◽

Natasha Tilikj ◽

Domen Lestan

Keyword(s):

Plant Growth ◽

Soil Properties ◽

Chelating Agents ◽

Soil Washing

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Enhancement of tartaric acid modified washing solutions for lead decontamination of tropical soils

Ovidius University Annals of Chemistry ◽

10.2478/auoc-2020-0006 ◽

2020 ◽

Vol 31 (1) ◽

pp. 27-32

Author(s):

Effiong Ukorebi Etim

Keyword(s):

Tartaric Acid ◽

Removal Efficiency ◽

Large Scale ◽

Soil Washing ◽

Tropical Soils ◽

Tropical Soil ◽

Low Concentrations ◽

Acid Washing ◽

High Level ◽

Single Batch

AbstractTartaric acid is generally not an effective soil washing solution, hence this study focuses on enhancing its usage for soil-Pb decontamination. Three tropical soil types (sandy, clay and loamy) with different lead concentrations were subjected to single batch washing using 0.01, 0.1, 0.5 and 1 M tartaric acid with 5% and 10% KCl modification at 3% soil-pulp-density for 2, 6, 12 and 24 h washing time. The optimum washing conditions were 1 M tartaric acid at 24 h washing time, with Pb removal efficiency: sandy- 94.3%, clay-67.6% and loamy-36.8%. Modification of tartaric acid with 5% and 10% KCl brought about some degree of enhancement of Pb removal efficiency especially for clay and loamy soils. Removal efficiency for 5% KCl modification were: sandy-97.9%, clay-96.2% with 1 M tartaric acid at 24 h washing time, loamy-76.7% for 0.5 M tartaric acid. Similarly, 10% KCl modification were: sandy-96.7%, clay-97.2% for 1 M tartaric acid at 24 h, loamy-82.1% for 0.5 M tartaric acid. Removal efficiency was soil concentration dependent. Generally, removal efficiency increased with increasing tartaric acid concentrations and washing time. Tartaric acid washing is promising and recommended in events of moderate contamination and 10% KCl modification in event of high level contamination. Further study is needed on enhancing very low concentrations of tartaric acid for large scale applications.

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Application of Soil Washing and Thermal Desorption for Sustainable Remediation and Reuse of Remediated Soil

Sustainability ◽

10.3390/su132212523 ◽

2021 ◽

Vol 13 (22) ◽

pp. 12523

Author(s):

Sang-Hwan Lee ◽

Soon-Oh Kim ◽

Sang-Woo Lee ◽

Min-Suk Kim ◽

Hyun Park

Keyword(s):

Soil Properties ◽

Soil Quality ◽

Thermal Desorption ◽

Contaminated Soil ◽

Soil Washing ◽

Future Research ◽

Soil Resources ◽

Sustainable Remediation ◽

Restoration Strategies ◽

The Impact

Global governance of soil resources as well as revitalizations and remediation of degraded areas seem to be necessary actions for sustainable development. A great deal of effort has gone into developing remediation technologies to remove or reduce the impact of these contaminants in the environment. However, contaminated soil remediations in stringent conditions deteriorate soil properties and functions and create the need for efficient soil revitalization measures. Soil washing (SW) and thermal desorption (TD) are commonly used to remediate contaminated soil and can significantly reduce the contaminant, sometimes to safe levels where reuse can be considered; however, the effects of treatment on soil quality must be understood in order to support redevelopment after remediation. In this review, we discussed the effects of SW and TD on soil properties, including subsequent soil quality and health. Furthermore, the importance of these techniques for remediation and reclamation strategies was discussed. Some restoration strategies were also proposed for the recovery of soil quality. In addition, remediated and revitalized soil can be reused for various purposes, which can be accepted as an implementation of sustainable remediation. This review concludes with an outlook of future research efforts that will further shift SW and TD toward sustainable remediation.

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Enhanced Soil Washing of PCB by Sophorolipids from Transformer Oil Contaminated Soil

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.694.450 ◽

2014 ◽

Vol 694 ◽

pp. 450-454 ◽

Cited By ~ 2

Author(s):

Xiao Yu Qi ◽

Xin Song ◽

You Min Sun

Keyword(s):

Nitrogen Source ◽

Removal Efficiency ◽

Yeast Extract ◽

Contaminated Soil ◽

Fermentation Broth ◽

Soil Washing ◽

Tween 80 ◽

Transformer Oil ◽

Indicator Pcbs ◽

Synthetic Surfactants

The effects of surfactants including synthetic surfactants and biosurfactants on 7 indicator PCBs removal from transformer oil-contaminated soil by using batch soil washing assessment were investigated. The sophorolipids (SLs) produced by Wickerhamiella domercqiae var. sophorolipid, especially lactonic SLs exhibited much higher PCB removal efficiency than SDS and Tween-80. The Σ7 PCB removal by 1.0 g/L lactonic SLs, 5.0 g/L of total SLs and acidic SLs was 30.2%, 30% and 25.4%, respectively. Removal efficiency of lower chlorinated congeners was significantly increased by adding sophorolipid, but higher chlorinated congeners removal efficiency was not further improved. 0.5 g/L lactonic SLs was efficient for PCB101 and 118 removal while 1.0 g/L lactonic SLs was efficient for PCB28 and 52 removal. The removal percentage was not increased with the increase of lactonic SLs concentration. The fermentation broth (yeast extract as nitrogen source) of W. domercqiae that was used directly on PCB removal was of superior efficiency.

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