Analytical methods for the determination of Cr6+ from fixed source emissions

Petrescu, Mihaela; Bucur, Elena; Danciulescu, Valeriu; Cozea, Andreea; Borcescu, Claudia Mihaela; Bratu, Mihai; Tanase, G.

doi:10.21698/rjeec.2020.223

RJEEC

2020

DOI: 10.21698/rjeec.2020.223

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Analytical methods for the determination of Cr6+ from fixed source emissions

Mihaela Petrescu¹,

Elena Bucur²,

Valeriu Danciulescu³

et al.

Abstract: This study aimed to develop two analytical methods for the determination of Cr6+ from fixed source emissions, such as the molecular absorption spectrophotometric method (UV-VIS) and the graphite furnace atomization absorption spectrometry method (GTAAS). The first stage in the development of analytical methods involves establishing the optimal operating conditions for, taking air samples, treating them for analysis, and the proceeding for analysis, followed by validating the method by determining performance p… Show more

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2024

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A resins-neutralization coupled route for the treatment of stainless-steel pickling effluent: A research study

Bhadrinarayanan¹,

Babu²

2024

CI&CEQ

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One of the major environmental problems caused by stainless-steel industries is the liquid effluents generated during the production processes. It contains a high concentration of metal ions such as Fe (III), Cr (III), Cr (VI), and Ni (II) in HF and HNO3 mixture, oil, and rinse wastewater. The used pickling waste stream has a pH of 0.5, and Total Dissolved Salts (TDS) of 520g/L with a density of 1.20g/CC. The present work focused on the recycling of pickling effluent by applying a combination of filtration, resins, and neutralization for the efficient removal of metal ions and F- greater than 99.5%. Laboratory experiments were performed using micro and ultra-filters with a membrane area of 0.2m2 for the removal of TDS. Cr (VI) was removed using TulsionFSMP 6301 resin and desorption using NaNO3 and subsequent conversion into Na2Cr2O7 as a by-product. For neutralization, Ca(OH)2, NaOH were used to precipitate metal ions and the resulting filtrate was polished using ZrOCl2 for effective removal of F- to 0.12 mg/L. The nitrate was recovered as NaNO3. Adsorption isotherm and kinetic studies were utilised for Cr (VI) from experimental data and a process flow diagram is developed, which can eventually be tested on a larger scale.

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A resins-neutralization coupled route for the treatment of stainless-steel pickling effluent: A research study

Bhadrinarayanan¹,

Babu²

2024

CI&CEQ

View full text Add to dashboard Cite

show abstract

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Analytical methods for the determination of Cr6+ from fixed source emissions

Cited by 1 publication

References 15 publications

A resins-neutralization coupled route for the treatment of stainless-steel pickling effluent: A research study

A resins-neutralization coupled route for the treatment of stainless-steel pickling effluent: A research study

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