Amarpreet K. Bhatia scite author profile

Amarpreet K. Bhatia

22Publications

19Citation Statements Received

27Citation Statements Given

How they've been cited

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1,110

Affiliations

National Institute of Technology Raipur

Publications

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Groundwater arsenic and fluoride in Rajnandgaon District, Chhattisgarh, northeastern India

et al. 2015

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The groundwater of Ambagarh Chouki, Rajnandgaon, India, shows elevated levels of As and F-, frequently above the WHO guidelines. In this work, the concentrations of As, F-, Na ? , Mg 2? , Ca 2? , Cl-, SO 4 2-, HCO 3-, Fe, dissolved organic carbon (DOC) and dissolved inorganic carbon (DIC) in the groundwater of Ambagarh Chouki are described. The sources of dissolved components in the groundwater are investigated using the cluster and factor analysis. Five factors have been identified and linked to processes responsible for the formation of groundwater chemistry. High concentrations of dissolved As seems to be linked to high concentrations of DOC, suggesting reductive dissolution of ferric oxyhydroxides as arsenic mobilization process. Fluoride is found in shallow depth water, presumably as a consequence of evaporation of water and removal of Ca 2? by precipitation of carbonates.

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Removal of Hydrophobic Contaminants from the Soil by Adsorption onto Carbon Materials and Microbial Degradation

Dewangan¹,

Bhatia²,

Singh³

et al. 2021

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The pollution of soil is a worldwide concern as it has harmful consequences on the environment and human health. With the continuous expansion of industry and agriculture, the content of hydrophobic organic pollutants in the soil has been increasing, which has caused serious pollution to the soil. The removal of hydrophobic organic contaminants from soil, aiming to recover environmental safety, is an urgent matter to guarantee sufficient food and water for populations. Adsorption has proven to be an effective and economically practicable method for removing organic contaminants. This paper summarizes the use of low-cost adsorbents, such as biochar and activated carbon, for removing hydrophobic organic contaminants from soil. Biochar is usually appropriate for the adsorption of organic contaminants via the adsorption mechanisms of electrostatic interaction, precipitation, and ion exchange. Biochar also has numerous benefits, such as being obtained from several kinds of raw materials, having low costs, recyclability, and potential for environmental treatment. This paper illustrates biochar’s adsorption mechanism for organic contaminants and discusses the microbial degradation of hydrophobic organic contaminants.

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Kinetic and Isothermal Studies for Removal of Zn (II) Ions from Aqueous Solutions by Using Lawsonia inermis as a Novel Biosorbent

Bhatia¹,

Khan

2014

AIR

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Functionalized Nanomaterial (FNM)–Based Catalytic Materials for Energy Industry

Bhatia¹,

Dewangan²,

Singh³

et al. 2021

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σ‐Complexes, π‐Complexes, and η ⁿ ‐C _n R _n Carbocyclic Polyenes‐Based Organometallic Compounds

Dewangan¹,

Aslam²,

Bhatia³

2023

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Chapter 6 Advanced fiber materials in energy applications

Bhatia¹,

Dewangan²

2023

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Carbohydrates and derivatives as green corrosion inhibitors

Bhatia¹,

Dewangan²,

Vaidya³

2023

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Organic corrosion inhibitors

Vaidya¹,

Bhatia²,

Dewangan³

2023

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12 3

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