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Prof. Xuebin Su| Recovery of uranium| Best Researcher Award

Chief Engineer, China National Uranium Co.,Ltd China

Xuebin Su, born in December 1968, is the Chief Engineer at China National Uranium Corporation. He specializes in Nuclear Science and Technology, particularly the Nuclear Fuel Cycle and Materials. With over 30 years of experience in the uranium industry, Su has been instrumental in the development of in-situ leaching techniques for uranium extraction. Throughout his career, he has led national research projects and contributed significantly to advancing uranium resource development, overcoming challenges related to low-grade and low-permeability uranium deposits. He has authored five monographs and received several prestigious awards, including the Guanghua Engineering Science and Technology Award. 🌐

Profile

Scopus

🎓 Education

Su earned his Bachelor’s degree in Hydrogeology and Engineering Geology from China University of Geosciences in 1991. He then pursued a Master’s degree in Nuclear Chemistry and Chemical Engineering from the China Institute of Atomic Energy between 1995-1997. His education laid a strong foundation for his pioneering work in uranium recovery methods, particularly in the area of CO2+O2 in-situ leaching. 📚

🛠️ Experience

Starting his career in 1991, Su has held key positions at various organizations, including the Leaching Mining Key Laboratory and Beijing Research Institute of Chemical Industry. From 2003 to 2017, he led a national key project focusing on uranium recovery and material engineering. Since 2017, Su has been serving as Chief Engineer at China National Uranium Corporation. He has extensive experience in technical equipment, engineering applications, and research on uranium and uranium polymetals. ⚙️

🏆 Awards & Honors

Su has received numerous accolades throughout his career. Notably, he won the 15th Guanghua Engineering Science and Technology Award in China for his outstanding contributions to nuclear technology. He has also been recognized with various industry honors, including several research excellence awards, a DST travel grant, and the Early Career Research Award from the Science and Engineering Research Board. 🏅

🔬 Research Focus

Su’s primary research focus is on the recovery of uranium and uranium polymetals through innovative methods like in-situ leaching and complex adsorption techniques. His work aims to address the challenges of low-grade uranium resources, such as low permeability and high mineralization. Additionally, his research explores uranium-Tombarthite and Uranium-Rhenium comprehensive recovery technologies. He has significantly contributed to advancements in uranium resource development over the years.

Conclusion 🎯

Xuebin Su is a deserving candidate for the Best Researcher Award, with his innovative approach to uranium recovery and his leadership in complex national projects. His track record of publications, patents, and industry collaborations speaks volumes about his commitment to advancing the field. By continuing to foster collaboration and expanding his impact in global research, he has the potential to further elevate his standing in the global scientific community.

Publication

  1. The influence of surfactants on the acid leaching process of a uranium mine in Inner Mongolia
    • Year: 2024
    • Authors: Li, J., Feng, J., Xue, J., Su, X., Hua, R.
    • Citation: Li, J., Feng, J., Xue, J., Su, X., & Hua, R. (2024). The influence of surfactants on the acid leaching process of a uranium mine in Inner Mongolia. Journal of Radioanalytical and Nuclear Chemistry, 333(11), 5845–5855.

 

  1. Synthesis of homogeneous styrenic pyridine resin (LSL-030-bd) and its application to the separation of uranium and molybdenum
    • Year: 2024
    • Authors: Peng, Y., Li, J., Xue, J., Su, X., Hua, R.
    • Citation: Peng, Y., Li, J., Xue, J., Su, X., & Hua, R. (2024). Synthesis of homogeneous styrenic pyridine resin (LSL-030-bd) and its application to the separation of uranium and molybdenum. Journal of Radioanalytical and Nuclear Chemistry, 333(10), 5099–5113.

 

  1. Advances in Development of Safe and Efficient Mining of Coexisting Coal and Uranium Resources
    • Year: 2024
    • Authors: Su, X., Liu, X., Du, Z., Chen, M., Zhang, T.
    • Citation: Su, X., Liu, X., Du, Z., Chen, M., & Zhang, T. (2024). Advances in Development of Safe and Efficient Mining of Coexisting Coal and Uranium Resources. Processes, 12(7), 1340.

 

  1. CTAB modification bentonite for enhanced Re adsorption and diffusion suppression
    • Year: 2024
    • Authors: Jiang, Q., Liu, W., Liao, Y., Su, X., Hua, R.
    • Citation: Jiang, Q., Liu, W., Liao, Y., Su, X., & Hua, R. (2024). CTAB modification bentonite for enhanced Re adsorption and diffusion suppression. Kerntechnik, 89(3), 340–350.

 

  1. Leaching process and kinetics of niobium-tantalum concentrate by HFH2SO4 mixed acid
    • Year: 2024
    • Authors: Liang, G., Su, X., Liu, H., Liu, K., Cheng, H.
    • Citation: Liang, G., Su, X., Liu, H., Liu, K., & Cheng, H. (2024). Leaching process and kinetics of niobium-tantalum concentrate by HFH2SO4 mixed acid. Guocheng Gongcheng Xuebao/The Chinese Journal of Process Engineering, 24(4), 470–479.

 

  1. The effect of surfactants on the efficiency and consumption reduction of acid stirred leaching of uranium ore
    • Year: 2024
    • Authors: Feng, J., Guo, J., Tang, R., Su, X., Hua, R.
    • Citation: Feng, J., Guo, J., Tang, R., Su, X., & Hua, R. (2024). The effect of surfactants on the efficiency and consumption reduction of acid stirred leaching of uranium ore. Journal of Radioanalytical and Nuclear Chemistry, 333(4), 1873–1881.

 

  1. Alkaline in-situ leaching of uranium in low-permeability sandstone: An experimental study using online low field nuclear magnetic resonance (LF-NMR) spectroscopy on multiphase response
    • Year: 2024
    • Authors: Zhang, T., Zhang, H., Yang, X., Zhou, G., Xie, Z.
    • Citation: Zhang, T., Zhang, H., Yang, X., Zhou, G., & Xie, Z. (2024). Alkaline in-situ leaching of uranium in low-permeability sandstone: An experimental study using online low field nuclear magnetic resonance (LF-NMR) spectroscopy on multiphase response. Hydrometallurgy, 225, 106269.

 

  1. Numerical Study on the Rock-Breaking Mechanism and Stress Superposition Effect of Double-Hole Delayed Blasting in Deep Reservoirs
    • Year: 2024
    • Authors: Wen, W., Wang, W., Wei, Y., Feng, X., Liang, X.
    • Citation: Wen, W., Wang, W., Wei, Y., Feng, X., & Liang, X. (2024). Numerical Study on the Rock-Breaking Mechanism and Stress Superposition Effect of Double-Hole Delayed Blasting in Deep Reservoirs. International Journal of Geomechanics, 24(3), 04023295.

 

  1. Optimization and application of ferrous reduced ammonium vanadate titration method for the determination of uranium content in geological samples
    • Year: 2024
    • Authors: Li, H., Zhang, Z., Jin, H., Hua, R., Su, X.
    • Citation: Li, H., Zhang, Z., Jin, H., Hua, R., & Su, X. (2024). Optimization and application of ferrous reduced ammonium vanadate titration method for the determination of uranium content in geological samples. Journal of Radioanalytical and Nuclear Chemistry, 333(2), 673–679.

 

 

Xuebin Su| Recovery of uranium| Best Researcher Award

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