يشغل حالياً عضو هيئة تدريس و باحث في كلية الهندسة، تولى رئاسة قسم الجودة وتقييم الأداء بكلية الهندسة في الفترة (2009-2013 )، وكان عضو لجنة ادراة الازمة بجامعة عمر المختار فرع طبرق 2011
كذلك شغل عضوية اللجنة العلمية في جامعة طبرق 2020-2021م
انضم لكلية الهندسة عام 2009، إذا قام بالتدريس سابقاً في جامعات أو مؤسسات أكاديمية أخرى، كما يتشرف بالاشراف على كثير من بحوث التخرج لطلبة كلية الهندسة.
Assistance professor in mechanical engineering with 20 years of experience in all facets of fluid mechanics, heat transfer, heating, ventilation, and air conditioning, research and development, pipeline network design and oil and gas production, power plant engineering, numerical modeling of fluid mechanical phenomena and computational aerodynamics
Developed the lattice Boltzmann method to solve compressible flow problems
Implemented the computational methods in GPU
Enhance jet mixing and reduce jet noise
Computational aeroacoustics
Internal and external flow simulation
High-Speed Flow Simulation
Compressible and incompressible flow simulation including heat transfer
Surface integral methods in computational aeroacoustics
Modeling and solving fluid mechanics problems
Numerical computation of internal and external flows
Computational aeroacoustics
Simulation of flow through complex 2D and 3D geometry
Laminar and turbulent boundary-layer flow simulations
له عدة عضوية بمؤسسات دولية مثل:
CFD Society of Canada
Canadian Society of Mechanical Engineering (CSME)
The American Society of Mechanical Engineers – ASME
التحكيم أو التقييم لمؤتمرات أو مجلات علمية
Journal of Natural Gas Science and Engineering (ScienceDirect)
CFD Society of Canada
Khalid I. Abdulgader , M.A. Muntasse, Numerical Simulation for Laminar Flow In a Pipe with Sudden Contraction, World Academy of Science, Engineering and Technology 61 2012 WASET, SWITZERLAND, January 15-17, 20122
Abuikasem Asgayer, Khalid I Abdulgader, Numerical Simulation For Laminar Flow in A Duct With Sudden Expansion, مجلة جامعة الزيتونة, ع2, 9 – 22, 2012
Noah, K. , Lien, F. (2018). ‘Compressible Lattice Boltzmann Method for Turbulent Jet Flow Simulations’. World Academy of Science, Engineering and Technology, Open Science Index 144, International Journal of Aerospace and Mechanical Engineering, 12(12), 1081 – 1086. doi.org/10.5281/zenodo.2363137
Noah, K., Lien, F. S., & Yee, E. (2020). Large‐Eddy simulation of subsonic turbulent jets using the compressible lattice Boltzmann method. International Journal for Numerical Methods in Fluids, 93(4), 927–952. https://doi.org/10.1002/fld.4914
Abobaker, E., Elsanoose, A., Khan, Noah, K. Quantifying the partial penetration skin factor for evaluating the completion efficiency of vertical oil wells. J Petrol Explor Prod Technol 11, 3031–3043 (2021). https://doi.org/10.1007/s13202-021-01229-8
Abobaker, E., Elsanoose, A., Khan, Noah, K. Quantifying the partial penetration skin factor for evaluating the completion efficiency of vertical oil wells. J Petrol Explor Prod Technol 11, 3031–3043 (2021). https://doi.org/10.1007/s13202-021-01229-8
Abobaker, E.E.R., Elsanoose, A., Khan, Noah, K. A new assessment of perforation skin factor for vertical perforated wells in near-wellbore region. J Petrol Explor Prod Technol 12, 117–133 (2022). https://doi.org/10.1007/s13202-021-01326-8
Abobaker, Ekhwaiter, Abadelhalim Elsanoose, Faisal Khan, Mohammad Azizur Rahman, Amer Aborig, and Noah, K. 2021. “A New Evaluation of Skin Factor in Inclined Wells with Anisotropic Permeability” Energies 14, no. 17: 5585. https://doi.org/10.3390/en14175585
عبدالقادر عبدالله و خالد ادريس، مبادئ معالجة مياة الصرف الصحي ISBN 987-9959-1-2639-9 دار الكتب الوطنية بنغازي
