Role of design and operational factors in the removal of pharmaceuticals by constructed wetlands
H Ilyas, ED van Hullebusch - Water, 2019 - mdpi.com
This study evaluates the role of design, operational, and physicochemical parameters of
constructed wetlands (CWs) in the removal of pharmaceuticals (PhCs). The correlation …
constructed wetlands (CWs) in the removal of pharmaceuticals (PhCs). The correlation …
Performance comparison of different constructed wetlands designs for the removal of personal care products
H Ilyas, ED van Hullebusch - International Journal of Environmental …, 2020 - mdpi.com
This research investigates the performance of four types of constructed wetlands (CWs): free
water surface CW (FWSCW), horizontal flow CW (HFCW), vertical flow CW (VFCW), and …
water surface CW (FWSCW), horizontal flow CW (HFCW), vertical flow CW (VFCW), and …
Pharmaceuticals' removal by constructed wetlands: a critical evaluation and meta-analysis on performance, risk reduction, and role of physicochemical properties on …
H Ilyas, I Masih, ED van Hullebusch - Journal of Water and Health, 2020 - iwaponline.com
This paper presents a comprehensive and critical analysis of the removal of
pharmaceuticals (PhCs), the governing physicochemical properties, and removal …
pharmaceuticals (PhCs), the governing physicochemical properties, and removal …
Constructed wetlands for the removal of organic micro-pollutants
Micro-pollutants (MPs) are considered as an emerging contaminant due to their detrimental
effects on the environmental and human health. MPs end up in the aquatic environment …
effects on the environmental and human health. MPs end up in the aquatic environment …
Low-carbon technologies to remove organic micropollutants from wastewater: a focus on pharmaceuticals
Pharmaceutical residues are of environmental concern since they are found in several
environmental compartments, including surface, ground and waste waters. However, the …
environmental compartments, including surface, ground and waste waters. However, the …
Applications of constructed wetlands in removing emerging micropollutants from wastewater: Occurrence, public health concerns, and removal performances-a review
SB Gebru, AA Werkneh - South African Journal of Chemical …, 2024 - journals.co.za
Emerging micropollutants (EMPs)-which include endocrine disruptors, pharmaceuticals,
personal care products, pesticides, and industrial chemicals-have recently received global …
personal care products, pesticides, and industrial chemicals-have recently received global …
[HTML][HTML] Fate of wastewater trace organic chemicals in vegetated biofiltration systems
Vegetated biofiltration system (VBS) is an effective green technology for urban stormwater
and greywater treatment. However, VBS is yet to be optimised for effective treatment of …
and greywater treatment. However, VBS is yet to be optimised for effective treatment of …
Influence of vegetation and substrate type on removal of emerging organic contaminants and microbial dynamics in horizontal subsurface constructed wetlands
D Wolff, A Abou-Kandil, H Azaizeh, A Wick… - Science of the Total …, 2024 - Elsevier
Constructed wetlands (CWs) offer an efficient alternative technology for removing emerging
organic contaminants (EOCs) from wastewater. Optimizing CW performance requires …
organic contaminants (EOCs) from wastewater. Optimizing CW performance requires …
Prediction of the removal efficiency of emerging organic contaminants based on design and operational parameters of constructed wetlands
H Ilyas, I Masih, ED van Hullebusch - Journal of Environmental Chemical …, 2021 - Elsevier
This study investigates the prediction of removal efficiency of pharmaceuticals (PhCs),
personal care products (PCPs), and steroidal hormones (SHs) based on design and …
personal care products (PCPs), and steroidal hormones (SHs) based on design and …
The influence of design and operational factors on the removal of personal care products by constructed wetlands
H Ilyas, ED Hullebusch - Water, 2020 - mdpi.com
This research presents the correlation analysis of selected design and operational factors
(depth, area, hydraulic and organic loading rate, and hydraulic retention time), and …
(depth, area, hydraulic and organic loading rate, and hydraulic retention time), and …