Biography

Dr. Hai Yu

CSIRO Energy Flagship, Australia


Email: hai.yu@csiro.au


Qualifications

2004 Ph.D., The University of Newcastle, Australia, Chemical Engineering

1996 M.S., Dalian University of Technology, China, Chemical Engineering

1993 B.S., Wuhan Institute of Chemical Technologies, China, Chemical Engineering


Research Fields

CO2 capture and utilization

Gas cleaning technologies

Treatment of greenhouse gases


Publications (Selected)

  1. Li, K.K., Yu, H., Tade, M., Feron, P., Yu, J., and Wang, S., Rate-based modelling of combined SO2 removal and NH3 recycling integrated with an aqueous NH3-based CO2 capture process. 2015, 148, 66-77.
  2. Li, L.C., Conway, W., , Puxty, G.,  Burns R.,, Clifford, S., Maeder M., and Yu, H., The Effect of piperazine (PZ) on CO2 absorption kinetics into aqueous ammonia solutions at 25.0oC, International Journal of Greenhouse Gas Control,  2015, 36, 135-143.
  3. Yu, J., Wang, S., and Yu, H., Modelling analysis of solid precipitation in an ammonia-based CO2 capture process, International Journal of Greenhouse Gas Control, 2014, 28, 133-9.
  4. Fang, M.X., Xiang Q.Y., Yu, C.J., Xia, Z.X., Zhou, X.P. Cai, D.Y. Wang, Z., Yu, H., Experimental study on CO2 absorption by aqueous ammonia solution at elevated pressure to enhance CO2 absorption and suppress ammonia vaporization, Greenhouse Gases: Science and Technology, 2014, DOI: 10.1002/ghg.1463.
  5. Yu, J., Wang, S., and Yu, H., Feron, P., Wardhaugh, L. Development of a rate-based model for CO2 regeneration in the aqueous ammonia-based CO2 capture process, International Journal of Greenhouse Gas Control, 2014, 28, 230-215.
  6. Yang, N., Xu, D.Y, Wei, C., Puxty, G., Yu, H., Maeder M., Norman, S. Paul Feron, P. Protonation constants and thermodynamic properties of amino acid salts for CO2 capture at high temperatures, Industrial & Engineering Chemistry Research, 2014, 53, 12848-12855.
  7. Li, K.K., Yu, H., Tade, M., Feron, P., Yu, J., and Wang, S., Process modeling of an advanced NH3 abatement and recycling technology in the Ammonia-based CO2 capture process. Environmental Science & Technology, 2014, 48, 7179–7186.
  8. Yang, N., Xu, D.Y. Yu, H., Meader M., and Feron, P., Potassium sarcosinate promoted Aqueous ammonia solution for post-combustion capture of CO2, Greenhouse Gases: Science and Technology, 2014, 4, 555-567.
  9. Yang, N., Yu, H., Li, L., Xu, D., Han, W., and Feron, P., Aqueous ammonia (NH3) based post combustion CO2 Capture: A review. Oil & Gas Science and Technology, 2014, 69, 931–945.
  10. Li, K.K, Yu, H., Tade, M., and Feron, P.,  Theoretical and experimental study of NH3 suppression by addition of Me(II) ions (Ni, Cu and Zn) in an ammonia-based CO2 capture process, International Journal of Greenhouse Gas Control, 2014, 24, 54-63.
  11. Wang, Z., Fang, M., Ma, Q., Yu, H., Wei, C.-C., and Luo, Z., Investigation of membrane wetting in different absorbents at elevated temperature for carbon dioxide capture. Journal of Membrane Science, 2014, 455, 219-228.
  12. Han, W., Chen, Y., Jin, B., Liu, H., and Yu, H., Catalytic hydrolysis of trifluoromethane over alumina. Greenhouse Gases: Science and Technology, 2014, 4,121-130.
  13. Zhang, K., Liu, L., Sunarso, J., Yu, H., Pareek, V., and Liu, S., Highly stable external short-circuit-assisted oxygen ionic transport membrane reactor for carbon dioxide reduction coupled with methane partial oxidation. Energy & Fuels, 2013. 28(1): 349–355.
  14. Qi, G.J., Wang, S.J., Yu, H., Wardhaugh, L., Feron, P., and Chen, C.H., Development of a rate-based model for CO2 absorption using aqueous NH3 in a packed column. International Journal of Greenhouse Gas Control, 2013. 17: 450–461.
  15. Li, L.C., Han, W.F., Yu, H., and Tang, H.D., CO2 absorption by piperazine promoted aqueous ammonia solution: absorption kinetics and ammonia loss. Greenhouse Gases-Science and Technology, 2013. 3(3): 231–245.
  16. Wang, Z., Fang, M., Yu, H., Wei, C.-C., and Luo, Z., Experimental and modeling study of trace CO2 removal in a hollow-fiber membrane contactor, using CO2-loaded monoethanolamine. Industrial & Engineering Chemistry Research, 2013. 52(50): 18059–18070.
  17. Wang, Z., Fang, M.X., Yan, S.P., Yu, H., Wei, C.C., and Luo, Z.Y., Optimization of blended amines for CO2 absorption in a hollow-fiber membrane contactor. Industrial & Engineering Chemistry Research, 2013. 52(34): 12170–12182.
  18. Wang, Z., Fang, M.X., Yu, H., Ma, Q.H., and Luo, Z.Y., Modeling of CO2 stripping in a hollow fiber membrane contactor for CO2 capture. Energy & Fuels, 2013. 27(11): 6887–6898.
  19. Xiang, Q.Y., Fang, M.X., Maeder, M., and Yu, H., Effect of sarcosinate on the absorption kinetics of CO2 into aqueous ammonia solution. Industrial & Engineering Chemistry Research, 2013. 52(19): 6382–6389.
  20. Yu, J., Wang, S., and Yu, H., Experimental studies on suppression of ammonia vaporization by additives. Greenhouse Gases: Science and Technology, 2013. 3(5): 415–422.
  21. Xiang, Q.Y., Fang, M.X., Yu, H., and Maeder, M., Kinetics of the reversible reaction of CO2(aq) and HCO3- with sarcosine salt in aqueous solution. Journal of Physical Chemistry A, 2012. 116(42): 10276–10284.
  22. Yu, H., Qi, G.J., Wang, S.J., Morgan, S., Allport, A., Cottrell, A., Do, T., McGregor, J., Wardhaugh, L., and Feron, P., Results from trialling aqueous ammonia-based post-combustion capture in a pilot plant at Munmorah Power Station: Gas purity and solid precipitation in the stripper. International Journal of Greenhouse Gas Control, 2012. 10: 15–25.
  23. Yu, H., Xiang, Q.Y., Fang, M.X., Yang, Q., and Feron, P., Promoted CO2 absorption in aqueous ammonia. Greenhouse Gases-Science and Technology, 2012. 2(3): 200–208.
  24. Yu, H., Morgan, S., Allport, A., Cottrell, A., Do, T., McGregor, J., Wardhaugh, L., and Feron, P., Results from trialling aqueous NH3 based post-combustion capture in a pilot plant at Munmorah power station: Absorption. Chemical Engineering Research & Design, 2011. 89(8A): 1204–1215.




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