EXTRACTION OF MOLYBDENUM FROM NITRIC ACID BY OCTYL(PHENYL)-<i>N</i>,<i>N</i>-DIISOBUTYLCARBAMOYLMETHYL-PHOSPHINE OXIDE

Fujii, Toshiyuki; Yamana, Hideaki; Watanabe, Masayuki; Moriyama, Hirotake

doi:10.1081/sei-100001378

Cited by 33 publications

(14 citation statements)

References 23 publications

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“…Since the incorporation of Mo is of particular concern in the vitrification of HLLW, Fujii et al [9] investigated the extraction of Mo by using octyl(phenyl)-N,N-diisobutylcarbamoylmethylphos phine oxide, whereas Zhang et al [8] synthesized a macroporous silica-based octyl(phenyl)-N,N-diisobutylcarbamoylmethylph osphine oxide impregnated polymeric composite to eliminate Mo from HLLW. Although the above mentioned composites can extract Mo from the HLLW, other materials, such as a Pb-Fe based adsorbent, could be a feasible alternative, [10,11].…”

Section: Introductionmentioning

confidence: 99%

Adsorption of Molybdenum Ion in Nitric Acid Solution by Using a Pb-Fe Based Adsorbent

Dodbiba

Lee

et al. 2010

Int.J.Soc.Mater.Eng.Resour.

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Experimental Synthesis of the Pb-Fe based AdsorbentsEach Pb-Fe based adsorbents was precipitated (at 25℃) by adding sodium hydroxide (NaOH) in a mixture of 1 mol/L lead nitrate Pb(NO 3 ) 2 and 1 mol/L ferric nitrate (Fe(NO 3 ) 3 . 9 H 2 O) aqueous solutions, until pH of the mixture was adjusted to a desired value. The suspensions were then filtered and the precipitates were dried at 70℃ for over 72 hrs. Finally, each precipitate was ground by using an agate mortar with pestle to obtain a fine powder, which has been used as an adsorbent. In same cases, prior to the adsorption experiment, the prepared powder was also calcinated at a temperature between 100 and 800℃.The synthesized adsorbents were characterized by means of a thermogravimetric analyzer (TG/DTA: Shimadzu DTG-50), a X-ray diffractometer (XRD: Mac Science, MO3XHF), and a scanning electron microscope (SEM: Keyence, VE-8800). -mail: dodbiba@geosys.t.u-tokyo.ac.jp In order to remove molybdenum (Mo) from the high-level radioactive liquid waste (HLLW), Pb-Fe based adsorbents were synthesized and their adsorption capacities were investigated. The adsorbent precursors were prepared with precipitation at various pH values by adding sodium hydroxide into a mixture of 1 mol/L lead nitrate and 1 mol/L ferric nitrate aqueous solutions, and each precipitate was then filtered, dried and ground to obtain a fine powder precursor. The precursors were also calcinated at various temperatures to obtain the Pb-Fe based adsorbents. Adsorption of Molybdenum Ion in Nitric AcidETwo main parameters were considered when synthesizing the adsorbents, i.e. the pH value of precipitation of adsorbent precursor as well as the calcination temperature of the Pb-Fe based adsorbent. The experimental results indicated that the calcination temperature has a great influence on adsorption capacity of the Pb-Fe based adsorbent for Mo. It was found that when the precursor was precipitated at pH 9 and then calcinated at 500℃, the sorbed amount of Mo by the adsorbent was the highest. In addition, the equilibrium sorption isotherm of Mo onto the adsorbent was estimated by the Langmuir, Freundlich and Redlich-Peterson sorption models. We found that the overall adsorption process was described well by Redlich-Peterson sorption isotherm equation.

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Section: Introductionmentioning

confidence: 99%

Adsorption of Molybdenum Ion in Nitric Acid Solution by Using a Pb-Fe Based Adsorbent

Dodbiba

Lee

et al. 2010

Int.J.Soc.Mater.Eng.Resour.

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“…Distribution coefficients for Mo(VI) have been measured by Vorob'ev et al, 26 Fujii et al, 27 and Visser and Pierce. 28 These distribution coefficients are compared with distribution coefficients fitted to the DFs reported for the small scale Hallam and Piqua fuel tests, listed in Table 3 Three separate SASSE models were constructed using Mo(VI) distribution coefficients based on the Hallam, the Piqua, and the Visser and Pierce data.…”

Section: Wsrc-sti-2007-00111mentioning

confidence: 99%

Sasse Modeling of a Uranium Molybdenum Separation Flowsheet

Laurinat¹

2007

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“…Cationic species exist in the region of pH below one. In the acidic region, the existence of dimeric cations has been suggested in the more concentrated solutions of molybdenum [34]. The speciation of molybdenum during dissolution of molybdenum pellets was studied by electrospray ionization mass spectrometry (ESI-MS), but is beyond the scope of this paper and will be published elsewhere.…”

Section: Dissolution Behaviormentioning

confidence: 99%

Reprocessability of molybdenum and magnesia based inert matrix fuels

et al. 2015

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Abstract. This work focuses on the reprocessability of metallic 92 Mo and ceramic MgO, which is under investigation for (Pu,MA)-oxide (MA = minor actinide) fuel within a metallic 92 Mo matrix (CERMET) and a ceramic MgO matrix (CERCER). Magnesium oxide and molybdenum reference samples have been fabricated by powder metallurgy. The dissolution of the matrices was studied as a function of HNO 3 concentration (1-7 mol/L) and temperature (25-90°C). The rate of dissolution of magnesium oxide and metallic molybdenum increased with temperature. While the MgO rate was independent of the acid concentration (1-7 mol/L), the rate of dissolution of Mo increased with acid concentration. However, the dissolution of Mo at high temperatures and nitric acid concentrations was accompanied by precipitation of MoO 3 . The extraction of uranium, americium, and europium in the presence of macro amounts of Mo and Mg was studied by three different extraction agents: tri-n-butylphosphate (TBP), N, N-dimethyl-N,N-dioctylhexylethoxymalonamide (DMDOHEMA), and N,N,N',N'--tetraoctyldiglycolamide (TODGA). With TBP no extraction of Mo and Mg occurred. Both matrix materials are partly extracted by DMDOHEMA. Magnesium is not extracted by TODGA (D < 0.1), but a weak extraction of Mo is observed at low Mo concentration.

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EXTRACTION OF MOLYBDENUM FROM NITRIC ACID BY OCTYL(PHENYL)-N,N-DIISOBUTYLCARBAMOYLMETHYL-PHOSPHINE OXIDE

Cited by 33 publications

References 23 publications

Adsorption of Molybdenum Ion in Nitric Acid Solution by Using a Pb-Fe Based Adsorbent

Adsorption of Molybdenum Ion in Nitric Acid Solution by Using a Pb-Fe Based Adsorbent

Sasse Modeling of a Uranium Molybdenum Separation Flowsheet

Reprocessability of molybdenum and magnesia based inert matrix fuels

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