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Arsenic removal technologies for middle- and low-income countries to achieve the SDG-3 and SDG-6 targets: A review

Akhilesh Kumar Yadav, Harish Kumar Yadav, Aliya Naz, Monika Koul, Abhiroop Chowdhury, Shashank Shekhar

2022Environmental Advances39 citationsDOIOpen Access PDF

Abstract

Contamination of arsenic (As) in groundwater has increased across the world with prominence in the middle- and low-income countries. The United Nations ‘Sustainable Development Goals’ (SDG's)- ‘good health and well-being’ (SDG 3) and ‘safe and clean water and sanitation for all’ (SDG 6), cannot be achieved without monitoring and remediating ‘As’ pollution in groundwater. Over 230 million people worldwide are affected due to arsenic-contaminated drinking water. More than 200 articles discussing the ‘As’ contamination, toxicity and cost effective technology were reviewed in this study focusing on economic status of the affected nation as per World bank report. Cost budget analysis suggested that chemical oxidation followed by precipitation (0. 043-0. 076 US$/m3), low cost adsorbent (0. 1 US$/m3), hybrid treatment technologies (0. 15-0. 17 US$/m3) and biological oxidation (0. 2 US$/m3) can be applied in low income countries through community based models to mitigate the health problem related to As contamination in order to achieve SDG 3 and SDG 6 targets. This study recommends further research on budget friendly ‘As’ remediation systems and policy level interventions in the affected nations to cater safe drinking water to all.

Topics & Concepts

SanitationArsenic contamination of groundwaterEnvironmental remediationBusinessArsenicLow and middle income countriesSustainable developmentPsychological interventionGroundwaterArsenic toxicityEnvironmental healthEnvironmental planningNatural resource economicsEnvironmental scienceDeveloping countryContaminationEconomic growthEnvironmental engineeringPolitical scienceEngineeringEconomicsMedicineChemistryOrganic chemistryPsychiatryGeotechnical engineeringEcologyLawBiologyArsenic contamination and mitigationHeavy Metal Exposure and ToxicityHeavy metals in environment