Prof. Dr. Anees   Abdullah Khadom
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Prof. Dr. Anees Abdullah Khadom

Professor
University of Diyala, Iraq


Highest Degree
Ph.D. in Chemical Engineering from Baghdad University, Iraq

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Biography

Dr. Anees Abdullah Khadom is currently working as Professor of Chemical Engineering Department at College of Engineering, Diyala University, Iraq. He has completed his Ph.D. in Chemical Engineering from Baghdad University, Iraq. His main area of interest focuses on Physical Science Engineering and Corrosion and Corrosion control. His area of expertise includes Chemical, Engineering, Corrosion, and Reaction. He has 43 publications in journals contributed as author/co-author.

Area of Interest:

Physical Science Engineering
100%
Corrosion
62%
Chemical Engineering
90%
Reaction Engineering
75%
Materials
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Mahmood, A.K. and A.A. Khadom, 2016. Erosion-corrosion of low-carbon steel in the absence and presence of slurry in saline water: Kinetic and mathematical views. J. Failure Anal. Prev., 16: 1071-1081.
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  2. Khadom, A.A., K.H. Hassan and N.H. Kurshed, 2016. Quantum chemical study of citrus aurantium leaves extracts as a sustainable corrosion inhibitor of mild steel in sulfuric acid. Aust. J. Basic Applied Sci., 10: 127-133.
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  3. Khadom, A.A., H. Liu, A.A. Fadhil and A.M.E.A. Karim, 2016. Retardation of high-temperature fuel ash corrosion of fireside boiler tubes via Nanoparticles. Oxidation Met., 86: 553-565.
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  4. Khadom, A.A., 2016. Comparison of mathematical and artificial neural network models for inhibition of fuel oil ash under high temperature corrosion. Corrosion Eng. Sci. Technol., 51: 278-284.
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  5. Hassan, K.H., A.A. Khadom and N.H. Kurshed, 2016. Experimental and mathematical studies for corrosion reaction of mild steel-sulfuric acid-friendly inhibitor system. Eur. J. Sci. Res., 139: 163-170.
  6. Hassan, K.H., A.A. Khadom and N.H. Kurshed, 2016. Citrus aurantium leaves extracts as a sustainable corrosion inhibitor of mild steel in sulfuric acid. South Afr. J. Chem. Eng., 22: 1-5.
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  7. Hameed, K.W., A.S. Yaro and A.A. Khadom, 2016. Mathematical model for cathodic protection in a steel-saline water system. J. Taibah Univ. Sci., 10: 64-69.
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  8. Al Azawy, A.N., A.A. Khadom and A.S.A. Jabbar, 2016. Efficiency of some types of bacteria on producing biofuels from wastes of writing paper. J. Environ. Chem. Eng., 4: 2816-2819.
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  9. Yaro, A.S., A.A. Khadom and M.A. Idan, 2015. Electrochemical approaches of evaluating galvanic corrosion kinetics of copper alloy-steel alloy couple in inhibited cooling water system. J. Mater. Environ. Sci., 6: 1101-1104.
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  10. Liu, H., A.A. Khadom and A.A. Fadhil, 2015. Mathematical and artificial neural network models for prediction of fuel oil ash corrosion of boiler tubes in presence of inhibitor. Eur. J. Sci. Res., 135: 5-14.
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  11. Khadom, A.A., A.F. Hassan and B.M. Abod, 2015. Evaluation of environmentally friendly inhibitor for galvanic corrosion of steel-copper couple in petroleum waste water. Process Saf. Environ. Prot., 98: 93-101.
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  12. Khadom, A.A., 2015. Protection of steel corrosion reaction by benzotriazoles: A historical background. J. Failure Anal. Prev., 15: 794-802.
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  13. Khadom, A.A., 2015. Kinetics and synergistic effect of iodide ion and naphthylamine for the inhibition of corrosion reaction of mild steel in hydrochloric acid. Reaction Kinetics Mech. Catalysis, 115: 463-481.
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  14. Farhan, S.N. and A.A. Khadom, 2015. Biosorption of heavy metals from aqueous solutions by Saccharomyces cerevisiae. Int. J. Ind. Chem., 6: 119-130.
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  15. Abdul-Khalik, K.H.R., 2015. Corrosion behavior of carbon steel in CO2-containing oilfield produced water. J. Loss Prev. Process Ind., 38: 24-38.
  16. Yaro, A.S., A.A. Khadom and R.K. Wael, 2014. Garlic powder as a safe environment green corrosion inhibitor for mild steel in acidic media; adsorption and quantum chemical studies. J. Chin. Chem. Soc., 61: 615-623.
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  17. Yaro, A.S., A.A. Khadom and M.A. Idan, 2014. Galvanic corrosion inhibition behavior of coupled copper: Steel alloys in cooling water system. J. Environ. Chem. Eng., 2: 2120-2128.
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  18. Khadom, A.A., 2014. Effect of temperature on corrosion inhibition of copper-nickel alloy by tetraethylenepentamine under flow conditions. J. Chilean Chem. Soc., 59: 2545-2549.
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  19. Khadom, A.A., 2014. Dual function of benzotriazole as copper alloy corrosion inhibitor and hydrochloric acid flow improver. Surf. Eng. Applied Electrochem., 50: 157-172.
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  20. Khadom, A.A. and A.S. Yaro, 2014. Mass transfer effect on corrosion inhibition process of copper-nickel alloy in hydrochloric acid by Benzotriazole. J. Saudi Chem. Soc., 18: 214-219.
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  21. Khadom, A.A. and A.A. Abdul-Hadi, 2014. Performance of polyacrylamide as drag reduction polymer of crude petroleum flow. Ain Shams Eng. J., 5: 861-865.
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  22. Khadom, A.A. and A.A. Abdul-Hadi, 2014. Kinetic and mathematical approaches to the corrosion of mild steel in nitric acid. React. Kinetics Mech. Catal., 112: 15-26.
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  23. Yaro, A.S., K.W. Hameed and A.A. Khadom, 2013. Study for prevention of steel corrosion by sacrificial anode cathodic protection. Theoret. Found. Chem. Eng., 47: 266-273.
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  24. Yaro, A.S., A.A. Khadom and S.M. Lahmod, 2013. Kinetics of the corrosion inhibition reaction of steel alloys in acidic media by potassium iodide. React. Kinetics Mech. Catal., 109: 417-432.
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  25. Yaro, A.S., A.A. Khadom and R.K. Wael, 2013. Apricot juice as green corrosion inhibitor of mild steel in phosphoric acid. Alexandria Eng. J., 52: 129-135.
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  26. Khadom, A.A., 2013. Modeling of corrosion reaction data in inhibited acid environment using regressions and artificial neural networks. Korean J. Chem. Eng., 30: 2197-2204.
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  27. Khadom, A.A., 2013. Generalisation of corrosion reaction kinetic models for steels in inhibited acidic media. Mater. Res. Innov., 17: 194-199.
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  28. Khadom, A.A., 2013. Effect of corrosive solution motion on copper-nickel alloy pipe in presence of naphthylamine as a corrosion inhibitor. J. Mater. Environ. Sci., 4: 510-519.
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  29. Khadom, A.A., 2013. Corrosion of Copper Alloys in Acids. LAP LAMBERT Academic Publishing, Germany, ISBN-13: 978-3659480423, Pages: 104.
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  30. Abdul-Hadi, A.A. and A.A. Khadom, 2013. Studying the effect of some surfactants on drag reduction of crude oil flow. Chin. J. Eng. 10.1155/2013/321908.
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  31. Musa, A.Y., A.A. Khadom, A.A.H. Kadhum, M.S. Takriff and A.B. Mohamad, 2012. The role of 4-amino-5-phenyl-4H-1,2,4-triazole-3-thiol in the inhibition of nickel-aluminum bronze alloy corrosion: Electrochemical and DFT studies. Res. Chem. Intermediates, 38: 91-103.
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  32. Khadom, A.A., A.S. Yaro, A.Y. Musa, A.B. Mohamad and H.K. Abdul Amir, 2012. Corrosion inhibition of copper-nickel alloy: Experimental and theoretical studies. J. Korean Chem. Soc., 56: 406-415.
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  33. Khadom, A.A., A.S. Yaro and A.A.H. Kadhum, 2012. Application of Some Basic Corrosion Equations for Copper-Nickel Alloy in Inhibited Acid Media. In: Tribology and Surface Engineering. Volume 1, Davim, J.P. (Ed.). Chapter 11, NOVA Science Publisher Inc., New York, USA., ISBN: 978-1-61470-021-0, pp: 171.
  34. Khadom, A.A. and K.W. Hameed, 2012. Prevention of steel corrosion by cathodic protection techniques. Int. J. Chem. Technol., 4: 17-30.
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  35. Khadom, A.A. and J. Abbass, 2012. Mathematics in Simplified Way : For First Stages Engineering and Science Students. LAP LAMBERT Academic Publishing, Germany, ISBN-13: 978-3659309427, Pages: 160.
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  36. Yaro, A.S., A.A. Khadom and H.F. Ibraheem, 2011. Peach juice as an anti-corrosion inhibitor of mild steel. Anti-Corrosion Methods Mater., 58: 116-124.
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  37. Yaro, A.S. H. Al-Jandeel and A.A. Khadom, 2011. Cathodic protection system of copper-zinc-saline water in presence of bacteria. Desalination, 270: 193-198.
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  38. Khadom, A.A., 2011. Molecular structure of phenylthiourea as a corrosion inhibitor for mild steel in hydrochloric acid. Corrosion Sci. Protect. Technol., 23: 457-462.
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  39. Khadom, A.A. and A.S. Yaro, 2011. Protection of low carbon steel in phosphoric acid by potassium iodide. Protect. Met. Phys. Chem. Surf., 47: 662-669.
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  40. Khadom, A.A. and A.S. Yaro, 2011. Modeling of corrosion inhibition of copper-nickel alloy in hydrochloric acid by benzotriazole. Russian J. Phys. Chem. A, 85: 2005-2012.
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  41. Yaro, A.S., R.K. Wael and A.A. Khadom, 2010. Reaction kinetics of corrosion of mild steel in phosphoric acid. J. Univ. Chem. Technol. Metall., 45: 443-448.
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  42. Yaro, A.S. and A.A. Khadom, 2010. Polarisation resistance behaviour of corrosion inhibition of low carbon steel in H3PO4 acid. Int. J. Surf. Sci. Eng., 4: 429-438.
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  43. Musa, A.Y., A.A. Khadom, A.A.H. Kadhum, A.B. Mohamad and M.S. Takriff, 2010. Kinetic behavior of mild steel corrosion inhibition by 4-amino-5-phenyl-4H-1,2,4-trizole-3-thiol. J. Taiwan Inst. Chem. Eng., 41: 126-128.
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  44. Khadom, A.A., A.Y. Musa, A.A.H. Kadhum, A.B. Mohamad and M.S. Takriff, 2010. Adsorption kinetics of 4-amino-5-phenyl-4H-1,2,4-triazole-3-thiol on mild steel surface. Portugaliae Electrochimica Acta, 28: 221-230.
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  45. Khadom, A.A., A.S. Yaro and A.H. Kadhum, 2010. Corrosion inhibition by naphthylamine and phenylenediamine for the corrosion of copper-nickel alloy in hydrochloric acid. J. Taiwan Inst. Chem. Eng., 41: 122-125.
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  46. Khadom, A.A., A.S. Yaro and A.A.H. Kadhum, 2010. Application of some basic corrosion equations for copper-nickel alloy in inhibited acid media. J. Tribol. Surf. Sci., 1: 169-184.
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  47. Khadom, A.A., A.S. Yaro and A.A.H. Kadhum, 2010. Adsorption mechanism of benzotriazole for corrosion inhibition of copper-nickel alloy in hydrochloric acid. J. Chilean Chem. Soc., 55: 150-152.
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  48. Khadom, A.A., 2010. Reaction kinetics of zinc as a sacrificial anode for chathodic protection of copper pipes carrying saline water in presence of bacteria. World Applied Sci. J., 10: 364-369.
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  49. Khadom, A.A., 2010. Mathematical and quantum chemical studies for the corrosion inhibition of steel in HCl acid. Diyala J. Eng. Sci., 3: 107-122.
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  50. Khadom, A.A., A.S. Yaro, and A.A.H. Kadhum, 2009. Adsorption mechanism of some chemical amines inhibitors for corrosion inhibition of copper-nickel alloy in hydrochloric acid. J. Corrosion Sci. Eng., Vol. 12. .
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  51. Khadom, A.A., A.S. Yaro, A.S. AlTaie and A.A.H. Kadum, 2009. Electrochemical, activations and adsorption studies for the corrosion inhibition of low carbon steel in acidic media. Portugaliae Electrochimica Acta, 27: 699-712.
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  52. Khadom, A.A., A.S. Yaro, A.A.H. Kadum, A.S. AlTaie and A.Y. Musa, 2009. The effect of temperature and acid concentration on corrosion of low carbon steel in hydrochloric acid media. Am. J. Applied Sci., 6: 1403-1409.
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  53. Khadom, A.A., A.S. Yaro, A.A.H. Kadum and A.S. Altaie, 2009. Mathematical modeling of corrosion inhibition behavior of low carbon steel in HCl acid. J. Applied Sci., 9: 2457-2462.
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  54. Hameed, K.W., A.A. Khadom and A.M. Rahman, 2009. Mass transfer coefficient during cathodic protection of low carbon steel in seawater. AL-Khwarizmi Eng. J., 5: 20-32.
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  55. Ahmed, M.J., A.A. Khadom and A.H. Kadhum, 2009. Optimization hydrogenation process of D-glucose to D-sorbitol over raney nickel catalyst. Eur. J. Sci. Res., 30: 294-304.
  56. Yaro, A.S. and A.A. Khadom, 2008. Evaluation of the performance of some chemical inhibitors on corrosion inhibition of copper in acid media. J. Eng., 14: 2350-2362.
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  57. Khadom, A.A., 2008. Adsorption isotherm of some triazoles as corrosion inhibitors of mild steel in acids. AL-Fatih J., 32: 1-10.
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  58. Khadom, A.A. and K.W. Hameed, 2008. Transition state theory and reaction kinetics for the corrosion of steel in acid media. AL-Fatih J., 35: 1-9.
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