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platinum groupMilitary unit
The high level radioactive wastes in spent fuels are immobilized in boro-silicate glass. The oxides of platinum group metals (Rh, Pd or Ru) exist in spent fuels. Their Gibbs energies are indispensable to evaluate th
AbstractAmong the large number of matrixes explored as hosts for high-level nuclear wastes, conditio...
International audienceAmong platinoid fission products, ruthenium is a key element during the vitrif...
To evaluate borosilicate glass as a matrix for long-term storage of radioactive waste, samples conta...
A database of 479 glass formulations used to immobilize radioactive wastes for facilities in a safe ...
Radioactive waste of nuclear power engineering is a considerable environmental hazard. Liquid highly...
The devitrification products of two simulated high level radioactive waste (HLW) glasses have been i...
The immobilization of 99Tc in a suitable host matrix has proved a challenging task for researchers i...
International audienceThe platinoid elements (Pd-Rh-Ru) exhibit very low solubility into borosilicat...
Technetium (Tc), found in nuclear waste, is of particular concern with regard to long-term waste st...
We examined the degradation of nuclear waste borosilicate and phosphate glasses containing strong al...
International audienceFission products and actinides arising from the spent UOX fuel reprocessing ar...
Technetium-99 is an abundant, long-lived (t1/2 = 213,000 yr) fission product that creates challenge...
Lead borate based glass formulations with high chemical durability and lower melting temperatures co...
Liquid and solid radioactive wastes are formed during conversion of plutonium metal to oxide and dur...
The Advanced Fuel Cycle Initiative (AFCI) waste management strategy revolves around specific treatme...
AbstractAmong the large number of matrixes explored as hosts for high-level nuclear wastes, conditio...
International audienceAmong platinoid fission products, ruthenium is a key element during the vitrif...
To evaluate borosilicate glass as a matrix for long-term storage of radioactive waste, samples conta...
A database of 479 glass formulations used to immobilize radioactive wastes for facilities in a safe ...
Radioactive waste of nuclear power engineering is a considerable environmental hazard. Liquid highly...
The devitrification products of two simulated high level radioactive waste (HLW) glasses have been i...
The immobilization of 99Tc in a suitable host matrix has proved a challenging task for researchers i...
International audienceThe platinoid elements (Pd-Rh-Ru) exhibit very low solubility into borosilicat...
Technetium (Tc), found in nuclear waste, is of particular concern with regard to long-term waste st...
We examined the degradation of nuclear waste borosilicate and phosphate glasses containing strong al...
International audienceFission products and actinides arising from the spent UOX fuel reprocessing ar...
Technetium-99 is an abundant, long-lived (t1/2 = 213,000 yr) fission product that creates challenge...
Lead borate based glass formulations with high chemical durability and lower melting temperatures co...
Liquid and solid radioactive wastes are formed during conversion of plutonium metal to oxide and dur...
The Advanced Fuel Cycle Initiative (AFCI) waste management strategy revolves around specific treatme...
AbstractAmong the large number of matrixes explored as hosts for high-level nuclear wastes, conditio...
International audienceAmong platinoid fission products, ruthenium is a key element during the vitrif...
To evaluate borosilicate glass as a matrix for long-term storage of radioactive waste, samples conta...
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