|
Author |
Title |
Year |
Publication |
Volume |
Pages |
Links |
|
Qiu, W.; Yang, Y.; Song, J.; Que, W.; Liu, Z.; Weng, H.; Wu, J.; Wu, J. |
What chemical reaction dominates the CO2 and O2 in-situ uranium leaching?: Insights from a three-dimensional multicomponent reactive transport model at the field scale |
2023 |
Applied Geochemistry |
148 |
105522 |
|
|
Haque, N.; Norgate, T. |
The greenhouse gas footprint of in-situ leaching of uranium, gold and copper in Australia |
2014 |
Journal of Cleaner Production |
84 |
382-390 |
|
|
Jana, A.; Unni, A.; Ravuru, S.S.; Das, A.; Das, D.; Biswas, S.; Sheshadri, H.; De, S. |
In-situ polymerization into the basal spacing of LDH for selective and enhanced uranium adsorption: A case study with real life uranium alkaline leach liquor |
2022 |
Chemical Engineering Journal |
428 |
131180 |
|
|
Wang, B.; Luo, Y.; Qian, J.-zhong; Liu, J.-hui; Li, X.; Zhang, Y.-hong; Chen, Q.-qian; Li, L.-yao; Liang, D.-ye; Huang, J. |
Machine learning–based optimal design of the in-situ leaching process parameter (ISLPP) for the acid in-situ leaching of uranium |
2023 |
Journal of Hydrology |
626 |
130234 |
|
|
Zeng, S.; Song, J.; Sun, B.; Wang, F.; Ye, W.; Shen, Y.; Li, H. |
Seepage characteristics of the leaching solution during in situ leaching of uranium |
2023 |
Nuclear Engineering and Technology |
55 |
566-574 |
|