Fast and efficient removal of caffeine from water using dielectric barrier discharge

Mohammed Al Bratty,Hisham M A Muzafar,Zia Ur Rehman,Asim Najmi,Abdul Jabbar Al-Rajab,Hassan A Alhazmi,Sadique A Javed,Mukul Sharma

doi:10.1007/s13201-021-01413-5

Mohammed Al Bratty, Hisham M A Muzafar + Show 6 more

Open Access

https://doi.org/10.1007/s13201-021-01413-5

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Journal: Applied Water Science	Publication Date: May 26, 2021
Citations: 6	License type: open-access

Affiliation: Jazan University

Abstract

Caffeine is a well-known central nervous system stimulant, which can cause anxiety, insomnia and nervousness. Domestic wastes of caffeinated drinks, beverages and chocolates are the major sources for entry of caffeine in the environmental system. Caffeine has been widely detected in natural water resources. The current study describes a method for efficient removal of caffeine from aqueous solution by a laboratory scale dielectric barrier discharge (DBD) in open air. Caffeine concentrations in various sample solutions were monitored by high-performance liquid chromatography, and the degradation products were identified by directly injecting the sample to mass spectrometer. The consequences of varied parameters such as input power, initial concentration and initial pH of the solution on the degradation of caffeine were investigated. Removal efficiency of caffeine from aqueous solution was 72.6% and 96.6% for the initial concentrations of 100 and 1 µg/mL, respectively, at initial pH 7 after 4 min treatment in DBD plasma system with 60 W input powers. Caffeine removal efficiency was less in acidic solutions (initial pH 4), and insignificant degradation was observed in alkaline solutions (initial pH 10). Furthermore, the degradation of caffeine was also enhanced by increasing the input power in DBD system. The DBD system used in this study has been considered to be fast, effective and economical. It was operated at atmospheric condition in open air without using catalyst, expensive gases or organic solvents, and significant degradation of caffeine was achieved in a short (4 min) treatment time.

Highlights

The ever-increasing usage and disposal of pharmaceutically active substances as well as personal-care products are becoming a matter of concern worldwide
The dielectric barrier discharge (DBD) system used in this study has shown fast and effective removal efficiency, as a degradation of 72.55% of caffeine in water (100 μg/mL initial concentration, pH 7) was achieved in a short time period (4 min) of plasma treatment at atmospheric pressure in open air
Caffeine has been considered to be one of the concerning contaminants in various surface and groundwater resources, and discharge of domestic wastes is the main source of contamination

Summary

Introduction

The ever-increasing usage and disposal of pharmaceutically active substances as well as personal-care products are becoming a matter of concern worldwide. The chemical pollutants present in these products are progressively entering into various natural water resources such as lakes, rivers and groundwater. The dewatered municipal biosolids are Department of Pharmaceutical Chemistry, College of Pharmacy, Jazan University, Jazan 45142, Saudi Arabia. The solicitation of dewatered municipal biosolids in soil profile has remarkable influence on depravity rate of various biodegradable substances and decreases their possible ecological hazard (Al‐Rajab et al 2015). Since the recognition of small quantities of active pharmaceutical substances in the groundwater has been noticed, the alertness about their existence and hazards has increased (Ternes 1998). These compounds have been detected in wastewater and subsequently reach into surface, ground and drinking water in North America, Australia and Europe (White et al 2006)

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