Abstract
The obtained data on the natural radionuclide distribution by phosphate fertilizer and superphosphate production process stages testify to phosphate fertilizer enrichment 2-4 times in relation to initial ore, depending in the raw material used. In this case uranium and thorium series element concentration value (in equilibrium with their decomposition products), proposed as a regulating one in phosphorus-containing fertilizers, is not achieved. However, the fact of lurichment as it is and the enrichment factor, stated in the course of the work, should be taken into account for evaluation of phosphorite new deposit raw material with higher concentrations of natural radionuclides. Natural radionuclide separation in the enrichment process and superphosphate production is not revealed.
Citation Formats
Lisachenko, Eh P, Ponikarova, T M, and Lisitsyna, Yu Z.
Natural radionuclide distribution in phosphate fertilizer and superphosphate production technology.
USSR: N. p.,
1987.
Web.
Lisachenko, Eh P, Ponikarova, T M, & Lisitsyna, Yu Z.
Natural radionuclide distribution in phosphate fertilizer and superphosphate production technology.
USSR.
Lisachenko, Eh P, Ponikarova, T M, and Lisitsyna, Yu Z.
1987.
"Natural radionuclide distribution in phosphate fertilizer and superphosphate production technology."
USSR.
@misc{etde_5521813,
title = {Natural radionuclide distribution in phosphate fertilizer and superphosphate production technology}
author = {Lisachenko, Eh P, Ponikarova, T M, and Lisitsyna, Yu Z}
abstractNote = {The obtained data on the natural radionuclide distribution by phosphate fertilizer and superphosphate production process stages testify to phosphate fertilizer enrichment 2-4 times in relation to initial ore, depending in the raw material used. In this case uranium and thorium series element concentration value (in equilibrium with their decomposition products), proposed as a regulating one in phosphorus-containing fertilizers, is not achieved. However, the fact of lurichment as it is and the enrichment factor, stated in the course of the work, should be taken into account for evaluation of phosphorite new deposit raw material with higher concentrations of natural radionuclides. Natural radionuclide separation in the enrichment process and superphosphate production is not revealed.}
journal = []
volume = {5}
journal type = {AC}
place = {USSR}
year = {1987}
month = {Jan}
}
title = {Natural radionuclide distribution in phosphate fertilizer and superphosphate production technology}
author = {Lisachenko, Eh P, Ponikarova, T M, and Lisitsyna, Yu Z}
abstractNote = {The obtained data on the natural radionuclide distribution by phosphate fertilizer and superphosphate production process stages testify to phosphate fertilizer enrichment 2-4 times in relation to initial ore, depending in the raw material used. In this case uranium and thorium series element concentration value (in equilibrium with their decomposition products), proposed as a regulating one in phosphorus-containing fertilizers, is not achieved. However, the fact of lurichment as it is and the enrichment factor, stated in the course of the work, should be taken into account for evaluation of phosphorite new deposit raw material with higher concentrations of natural radionuclides. Natural radionuclide separation in the enrichment process and superphosphate production is not revealed.}
journal = []
volume = {5}
journal type = {AC}
place = {USSR}
year = {1987}
month = {Jan}
}