R. Kumar scite author profile

SummaryThe removal of uranyl nitrate from tissue matrix has been studied with supercritical carbon dioxide modified with methanol alone as well as complexing reagents dissolved in methanol. A systematic study of various complexing agents led to the development of an extraction procedure for the quantitative recovery of uranium from tissue matrix with supercritical carbon dioxide modified with methanol containing small quantities of acetylacetone. The drying time and temperature employed in loading of uranyl nitrate onto tissue paper were found to influence the extraction efficiency significantly.

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Studies on the supercritical fluid extraction of uranium from tissue matrix

Kumar¹,

Sivaraman²,

Srinivasan³

et al. 2002

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Characterization of fly ash by ED-XRF and INAA for the synthesis of low silica zeolites

Kumar

Senthilvadivu

Rao

et al. 2020

J Radioanal Nucl Chem

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Design and adaptation of a novel supercritical extraction facility for operation in a glove box for recovery of radioactive elements

Kumar

Sivaraman

et al. 2010

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The design and development of a novel supercritical extraction experimental facility adapted for safe operation in a glove box for the recovery of radioactive elements from waste is described. The apparatus incorporates a high pressure extraction vessel, reciprocating pumps for delivering supercritical fluid and reagent, a back pressure regulator, and a collection chamber. All these components of the system have been specially designed for glove box adaptation and made modular to facilitate their replacement. Confinement of these materials must be ensured in a glove box to protect the operator and prevent contamination to the work area. Since handling of radioactive materials under high pressure (30 MPa) and temperature (up to 333 K) is involved in this process, the apparatus needs elaborate safety features in the design of the equipment, as well as modification of a standard glove box to accommodate the system. As a special safety feature to contain accidental leakage of carbon dioxide from the extraction vessel, a safety vessel has been specially designed and placed inside the glove box. The extraction vessel was enclosed in the safety vessel. The safety vessel was also incorporated with pressure sensing and controlling device.

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R. Kumar

Removal of plutonium and americium from waste matrices by supercritical carbon dioxide extraction

Complete removal of uranyl nitrate from tissue matrix using supercritical fluid extraction

Studies on the supercritical fluid extraction of uranium from tissue matrix

Characterization of fly ash by ED-XRF and INAA for the synthesis of low silica zeolites

Design and adaptation of a novel supercritical extraction facility for operation in a glove box for recovery of radioactive elements

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