A systematic study on adsorptive removal of arsenic using low cost adsorbents with or without the presence of NOM
Year 2023,
, 117 - 130, 23.06.2023
Seda Tözüm Akgül
,
İbrahim Yıldıran
,
Turgut Erdem
,
Nuray Ateş
,
Şehnaz Şule Bekaroğlu
Abstract
Arsenic is a toxic and bio-accumulating element in water bodies, especially in drinking water sources.One of the methods used to remove arsenic from drinking water is adsorption. NOM (natural organic matter), which is ubiquitous in natural aquatic environments, can inhibit arsenic adsorption by competing with arsenic for adsorbent surface sites. The main objectives of this study were to investigate the competitive adsorption between NOM and arsenic using low-cost adsorbents. For this purpose, batch adsorption experiments were carried out in synthetic and natural water using pumice, steel slag and red mud as low cost adsorbents.The highest arsenic removal efficiencies obtained with steel slag, pumice and red mud were 95, 95 and 50 %, respectively without the presence of NOM. The results showed that the presence of NOM caused a significant reduction in arsenic adsorption for all tested adsorbents and 20-30% less arsenic removal efficiency was obtained in natural water compared to the removal efficiencies obtained in synthetic water. The maximum adsorption capacities obtained in synthetic water with all tested adsorbents vary between 1.6 -3.05 mgAs/g, while the maximum adsorption capacities obtained in natural water vary between 0.9-1.2 mgAs/g. All these findings indicate that NOM can hinder the uptake of arsenic by all tested adsorbents. Moreover, the arsenic adsorption in natural water were modelled by Langmuir, Freundlich and modified Freundlich. The results showed that the arsenic adsorption data were well fitted by modified Freundlich isotherm with R2 values between 0.87 and 0.90.
Supporting Institution
TUBITAK
Thanks
This work was supported by The Scientific and Technological Research Council of Turkey (TUBITAK). The authors would like to thank TUBITAK 2209 Programme.
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Year 2023,
, 117 - 130, 23.06.2023
Seda Tözüm Akgül
,
İbrahim Yıldıran
,
Turgut Erdem
,
Nuray Ateş
,
Şehnaz Şule Bekaroğlu
References
- [1] Hao L, Liu M, Wang N, Li G. A critical review on arsenic removal from water using iron-based adsorbents. RSC Advances 2018; 8: 39545–39560.
- [2] Elizalde-González M. P, Mattusch J, Einicke WD, Wennrich R. Sorption on natural solids for arsenic removal. Chemical Engineering Journal 2001; 81: 187-195.
- [3] World Health Organization (WHO) 1993. Guidelines for drinking water quality, vol 1, 2nd edn. WHO, Geneva.
- [4] United States Environmental Protection Agency (USEPA) 2013. Arsenic in drinking water.
http://water.epa.gov/lawsregs/rulesregs/sdwa/arsenic/index.cfm. Accessed 14 November 2022.
- [5] Turkish Ministry of Health, Regulation Concerning Water Intended for Human Consumption, Official News
Paper, No. 25730, Ankara, Turkey, 2005.
- [6] Tözüm Akgül S, Kaplan Bekaroğlu ŞŞ. Removal of Arsenic from water with Low Cost and Environmentally-
benign Adsorbents. Journal of the Institute of Science and Technology 2022; 12(3): 1395-1404.
- [7] Kumar R, Patel M, Singh P, Bundschuh J, Pittman CU, Trakal L, Mohan D. Emerging technologies for arsenic
removal from drinking water in rural and peri-urban areas: Methods, experience from, and options for Latin
America. Science of the Total Environment 2019; 694, 133427.
- [8] Mohan D, Pittman CU. Arsenic removal from water/wastewater using adsorbents-Ac critical review. Journal
of Hazardous Materials 2007; 142, 1-53.
- [9] Bingül Z. The use of waste green tea leaves for crystal viyole adsorption: kinetic, equilibrium and
thermodynamics studies. Journal of the Institute of Science and Technology 2021; 11(4): 2645-2659.
- [10] Foroutan R, Mohammadi R, Adeleye AS, Farjadfard S, Esvandi Z, Arfaeinia H, Sorial GA, Ramavandi B, Sahebi S. Efficient arsenic(V) removal from con-taminated water using natural clay and clay composite adsorbents. Environmental Science and Pollution Research 2019; 2: 29748–29762.
- [11] Kırkan B, Bekaroğlu M. 2019. Removal of Arsenate (V) by Adsorption Process from Aqueous Media Using
Modified Pumice. Süleyman Demirel University Journal of Natural and Applied Sciences 2019; 23(2): 356-366.
- [12] Balsamo M, Di Natale F, Erto A, Lancia A, Montagnaro F, Santoro L. Arsenate removal from synthetic
wastewater by adsorption onto fly ash. Desalination 2010; 263: 58-63.
- [13] Genc-Fuhrman H, Bergnhoj H, McConchie D. Arsenate removal from water using sand-red mud columns.
Water Research 2005; 39: 2944–2954.
- [14] Chiban M, Zerbet M, Carja G, Sinan F. Application of low-cost adsorbents for arsenic removal: A review.
Journal of Environmental Chemistry and Ecotoxicology 2012; 4(5): 91-102.
- [15] Zhang S, Liu C, Luan Z, Peng X, Ren H, Wang J. Arsenate removal from aqueous solutions using modified red
mud. Journal of Hazardous Materials 2008; 152: 486–492.
- [16] Far LB, Souri B, Heidari M, Khoshnavazi R. Evaluation of iron and manganese-coated pumice application fort
he removal of As(V) from aqueous solutions. Iranian Journal of Environmental Health Sciences and Engineering
2012; 9.
- [17] Lekić BM, Marković DD, Rajaković-Ognjanović VN, Ɖukić AR, Rajaković LV. Arsenic Removal from Water Using
Industrial By-Products. Hindawi Publishing Corporation Journal of Chemistry 2013.
- [18] Aykut Senel B, Ozgur C, Kaplan Bekaroglu SS, Ates N. Removal of Natural Organic Matter by Using Original
and Chemically Modified Adsorbents. The 2nd International Conference on Environmental Science and
Applications, Seoul, 2021.
- [19] Yigit NO, Tozum S. Removal of Selenium Species from Waters Using Various Surface-Modified Natural
Particles and WasteMaterials. Clean – Soil, Air, Water 2012; 40 (7): 735–745.
- [20] Mouelhi M, Giraudet S, Amrane A, Hamrouni B. Competitive adsorption between fluoride and natural
organic matter onto activated alümina. Environmental Technology 2016; 1-11.
- [21] Otero-Fariña A, Fiol S, Arce F, Antelo J. Effects of natural organic matter on the binding of arsenate and
copper onto goethite. Chemical Geology 2017; 459: 119–128.
- [22] Weng L, Van Riemsdijk WH, Hiemstra T. Effects of Fulvic and Humic Acids on Arsenate Adsorption to
Goethite: Experiments and Modeling. Environmental Science Technology 2009;43: 7198-7204.
- [23] Redman AD, Macalady DL, Ahmann D. Natural Organic Matter Affects Arsenic Speciation and Sorption onto
Hematite. Environmental Science Technology 2002; 36: 2889-2896.
- [24] Öztürk M. Arsenic Treatment in Drinking Water Supplies. Ministry of Environment and Urbanization, 2017
Ankara. http://www.cevresehirkutuphanesi.com/assets/files/slider_pdf/nsUI8wIeDbPq.pdf
- [25] APHA (American Public Health Association),Standard Methods for the Examination of Water and
Wastewater, 20th ed., American Public Health Association, Washington, D.C., 1998.
- [26] Öztel MD, Akbal F, Altaş L. Arsenite removal by adsorption onto iron oxide-coated pumice and sepiolite. Environmental Earth Science 2015; 73: 4461–447.
- [27] Liu G, Zhang X, Talley JW, Neal CR, Wang H. Effect of NOM on arsenic adsorption by TiO2 in simulated As(III)-
contaminated raw waters. Water Research 2008;42: 2309-2319.
- [28] Mahoutian M, Chaallal O, Shao Y. Pilot production of steel slag masonry blocks. Canadian Journal of Civil
Engineerng 2018; 45(7): 537–546.
- [29] Nikolić I, Đurović D, Tadić M, Radmilović VV. Radmilović VR. Adsorption kinetics, equilibrium, and
thermodynamics of Cu2+ on pristine and alkali activated steel slag. Chemical Engineering Communications
2020; 207 (9): 1278–1297.
- [30] Pereira PAL, Dutra AJB, Martins AH. Adsorptive removal of arsenic from river waters using pisolite. Minerals
Engineering 2007; 20: 52–59.
- [31] Arıkan S. Investigation of Arsenic Adsorption Performance of the Modified Natural Materials, Ph. D. Thesis,
Dokuz Eylul University, 2016.
- [32] Velazquez-Jimenez LH, Arcibar-Orozco JA, Rangel-Mendez JR. Overview of As(V) adsorption on Zr-
functionalized activated carbon for aqueous streams remediation. Journal of Environmental Managament
2018; 212: 121–130.