Pamphile Ndagijimana
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Explore the profile of Pamphile Ndagijimana including associated specialties, affiliations and a list of published articles.
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9
Citations
3
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Recent Articles
1.
Ndagijimana P, Rong H, Duan L, Li S, Nkinahamira F, Hakizimana J, et al.
Environ Res
. 2024 May;
255:119134.
PMID: 38751002
The deep removal of organic pollutants is challenging for coagulation technology in drinking water and wastewater treatment plants to satisfy the rising water standards. Iron (III) chloride (FeCl) is a...
2.
Nizeyimana J, Ndagijimana P, Khan J, Xiangru L, Twagirayezu G, Manzi H, et al.
Environ Sci Pollut Res Int
. 2024 Mar;
31(19):28321-28340.
PMID: 38538998
The presence of heavy metal ions in water environments has raised significant concerns, necessitating practical solutions for their complete removal. In this study, a combination of adsorption and electrocoagulation (ADS ...
3.
Cui B, Rong H, Tian T, Guo D, Duan L, Nkinahamira F, et al.
Environ Res
. 2024 Feb;
249:118416.
PMID: 38316391
Microplastics (Mps) have emerged as a pervasive environmental concern, with their presence detected not only in freshwater ecosystems but also in drinking and bottled water sources. While extensive research has...
4.
Ndagijimana P, Liu X, Xu Q, Li Z, Pan B, Liao X, et al.
Sci Total Environ
. 2022 Jun;
839:156228.
PMID: 35643141
AC-supported nanoscale zero-valent iron composites (nZVI/AC) exhibit significant environmental implications for trihalomethanes (THMs)-contaminated water remediation. To improve the adsorption and degradation capability of AC, herein, a composite (nZVI/Ag@AC-RGO) consisting of...
5.
Performance of tidal and non-tidal mangrove constructed wetlands in treating maricultural wastewater
Zhang T, Liu C, Wei L, Tian S, Li J, Ndayambaje P, et al.
Water Sci Technol
. 2022 May;
85(9):2772-2785.
PMID: 35576268
This study aims to evaluate the removal efficiency of nitrogen and phosphorus in the tidal and non-tidal constructed wetlands with typical mangrove (Aegiceras corniculatum) as a wetland plant model to...
6.
Ndagijimana P, Liu X, Li Z, Xing Z, Pan B, Yu G, et al.
Environ Sci Pollut Res Int
. 2021 Jul;
28(47):67120-67136.
PMID: 34245419
Sulfur compound detection such as mercaptans in liquid fuels is undesirable because sulfur is the main sourcing emission of sulfur oxide (SO) into the air. The use of activated carbon...
7.
Jiang R, Yu G, Ndagijimana P, Wang Y, You F, Xing Z, et al.
Water Sci Technol
. 2021 May;
83(10):2424-2436.
PMID: 34032620
Using solid adsorbents, such as biochar, has been a potential practice to remove the pollutants from water bodies to render the water safer for potential usage. A potential application of...
8.
Ndagijimana P, Liu X, Li Z, Yu G, Wang Y
Environ Sci Pollut Res Int
. 2020 Feb;
27(13):15758-15771.
PMID: 32080818
For a potential and efficient solution in the mitigation of aquatic pollution, this study reported a well-designed and developed protected granulated activated carbon (GAC) material which ensures high strength property...
9.
Ndagijimana P, Liu X, Li Z, Yu G, Wang Y
Sci Total Environ
. 2019 Jul;
689:457-468.
PMID: 31279193
The presence of endocrine disrupting chemicals (EDCs) in the environmental water poses a serious threat which requires strong practical solutions. The existing activated carbon-based adsorbents exhibit a number of limitations...