Professor Sherali Tursunbadalov

Designation:

Professor

Department:

Chemistry

Office:

Block A, Room 105

Biography

Sherali Tursunbadalov is a Professor of Chemistry in the Faculty of Natural and Applied Sciences. He is also the Chemistry department’s Head of Department as well as the Director of the Research Office at Nile University of Nigeria. Tursunbadalov’s research interests include the study of multicomponent aqueous systems, phase equilibria and multicomponent phase diagrams.

Recent Publications (Articles, Books, Book Chapters/Sections, Proceedings, etc.)

LIST OF PUBLICATIONS IN PEER REVIEWED JOURNALS

  1. Sherali Tursunbadalov, Luis Cisternas. Phase equilibria in quinary Na, K, Mg, //Cl, SO4, NO3 – H2O system at 100ºC. Russian Journal of Inorganic Chemistry, accepted, in press.
  2. Sherali Tursunbadalov. Phase equilibria in quinary Na, K, Mg, Sr //Cl – H2O system at 100ºC. Russian Journal of Inorganic Chemistry, 65 (2), 205 – 211, 2020.
  3. Sherali Tursunbadalov. Elucidation of phase equilibria in quinary Na, K, Mg // SO4, B4O7 – H2O system at 15ºC. Russian Journal of Inorganic Chemistry, 65 (3), 412- 419, 2020.
  4. Sherali Tursunbadalov and Lutfullo Soliev. Phase equilibria in quinary Na, K, Mg //Cl, SO4 – H2O system at 0ºC. Brazilian Journal of Chemical Engineering. 37 (3), 577-593.
  5. Sherali Tursunbadalov. Phase Equilibria in the Quinary Li, Na, K, Sr // Cl – H2O System at 25ºC. Russian Journal of Inorganic Chemistry, 8, 2020.
  6. Sherali Tursunbadalov and Lutfullo Soliev. Phase Equilibria in Quinary Na, K, Mg//Cl, SO4 –H2O System at 25 °C. Chem. Eng. Data, 2019, 64, 5478−5485.
  7. Sherali Tursunbadalov and Lutfullo Soliev. Investigation of phase equilibria in quinary water-salt systems. Chem. Eng. Data 2018, 63, 598−612.
  8. Sherali Tursunbadalov and Lutfullo Soliev. Determination of phase equilibria and construction of comprehensive phase diagram for the quinary Na, K//Cl, SO4, B4O7 –H2O system at 25o J. Chem. Eng. Data, 2017, 62, 698−703.
  9. Sherali Tursunbadalov and Lutfullo Soliev. Crystallization and dissolution in multicomponent water−salt systems. Chem. Eng. Data, 2017, 62, 3053−3063.
  10. Sherali Tursunbadalov and Lutfullo Soliev. Phase equilibria in multicomponent water-salt systems. Chem. Eng. Data, 2016, 61, 2209-2220.
  11. Lutfullo Soliev, Maruf Jumaev, Sherali Tursunbadalov, Mahmadsalim Usmonov, Shohiddin Avloev. Structure of solubility diagram of quaternary Na, Ca // SO4, CO3 – H2O water -salt system at 25ºC. Austrian Journal of Technical and Natural Sciences. 2016, 9 -10, 83 -90.
  12. Sherali Tursunbadalov and Lutfullo Soliev. Phase equilibria in the quinary Na,K//SO4,CO3,HCO3–H2O system at 75o Journal of Solution Chemistry, 2015, 44, 1626-1639.
  13. Lutfullo Soliev and Sherali Tursunbadalov. Phase equilibria in the Na,K//SO4,CO3,НCO3–H2O system at 0oС. Russian Journal of Inorganic Chemistry, 2010, 55(8), 1373-1375.
  14. Lutfullo Soliev and Sherali Tursunbadalov, Phase equilibria in the Na,K//SO4,CO3,НCO3–H2O system at 250С. Russian Journal Inorganic Chemistry, 2008, 53 (5), 869-875.

 

CONFERENCES 

  1. Sherali Tursunbadalov, Lutfullo Soliev. Determination of phase equilibria in the quinary Na,K//SO4,CO3,HCO3 –H2O system at 100o ISSP17 – 17th International Symposium on Solubility Phenomena and Related Equilibrium Processes. 24-29 July 2016, Geneva, Switzerland.
  2. Sherali Tursunbadalov, Lutfullo Soliev. Phase Equilibria in the Na,K//SO4,CO3,HCO3 –H2O system at 50o 2nd International Conference on Competitive Materials and Technology Processes. (www.ic-cmtp2.eu). October 8-12, 2012, Miskolc-Lillafüred, Hungary. Published as book; ISBN: 978-963-08-4874-9.
  3. Lutfullo Soliev, Shohidin Avloev, Isokhon Nizomov, Sherali Tursunbadalov, Jamila Musojonova. Solid phases in quinary points of system Na, K// SO4, CO3, НCO3, F – H2O at 250С. Thermodynamics and Kinetics. 2ndInternational Conference. September 12-14, 2012, Donesk-Ukraine.
  4. Sheraali Tursunbadalov, Lutfullo Soliev. Determination of phase equilibria in the system Na,K//SO4,CO3,НCO3–H2O at 00С. «CALPHAD ХХХVIII» Masaryk University, Prague, Czech Republic, June 17-22, 2009.
  5. Sherali Tursunbadalov and Lutfullo Soliev. Determination of phase equilibria in the systemNa,K//SO4,CO3,НCO3 – H2O at 250С. «CALPHAD ХХХVII» Helsinki University of Technology, Finland-June 15-21, 2008.
  6. Lurfullo Soliev, Shohidin Avloev, Sherali Tursunbadalov, Isokhon Nizomov, Jamila Musojonova. Crystallization and dissolution of salts in systems consisting of sulfates, carbonates, bicarbonates and fluorides of sodium and potassium. «30th Symposium on Solution Chemistry of Japan» Fukuoka University, Fukuoka, Japan, November 21-25, 2007.
  7. Lutfullo Soliev, Shohidin Avloev, Sherali Tursunbadalov, Isokhon Nizomov. Phase diagrams of policomponent Systems. «Modern physical chemistry for Advanced Materials» Kharkiv, Ukrainе, June 26-30, 2007.
  8. Lutfullo Soliev, Shohidin Avloev, Sherali Tursunbadalov, Isokhon Nizomov. Forecast of Common (balanced) crystallization of salts in systems consisting of sulfates, carbonates, bicarbonates and fluorides of sodium and potassium. «CALPHAD ХХХVI». Pennsylvania State University Pennsylvania, USA – May 6 – 11, 2007.

 

PROCEEDINGS 

  1. Sherali Tursunbadalov. Elucidation of phase equilibria in quinary system composed of lithium, sodium, and potassium cations along with sulfate and tetraborate anions at 0°C. December 2019 J. Phys.: Conf. Ser. 1378:042035. DOI: 1088/1742-6596/1378/4/042035.
  2. Lutfullo Soliev and Sherali Tursunbadalov. Prediction of phase equilibria in multicomponent water-salt systems by means of translation method. August 2019, Journal of Physics Conference Series, 1299:012130. DOI: 1088/1742-6596/1299/1/012130.
  3. Lutfullo Soliev and Sherali Tursunbadalov. Phase equilibria in the Na,K//SO4,CO3,НCO3–H2O system at 50oС. 2013 IOP Conf. Ser.: Mater. Sci. Eng. 47 012050 DOI:10.1088/1757-899X/47/1/012050. IOP Conference Series: Materials Science and Engineering, Volume 47.

Courses/Modules Taught

Undergraduate

  • General Chemistry
  • Physical chemistry

Postgraduate

  • Recent advances in coordination chemistry
  • Separation methods of analysis