Shaaban A Abdallah
Professor (F2)
Rhodes Hall
721
CEAS - Aerospace Eng & Eng Mechanics - 0070
Professional Summary
ResearchGate Profile
LinkedIn Profile
Research Interests:
- Fluid Mechanics
- Computational Fluid Dynamics
- Domain Decomposition Methods
- Computation of Incompressible Viscous Three-Dimensional Flow in Turbomachinery (Inlet, Duct, Combustor, Compressor, Turbine)
Research Support
Grant: #18-7900-0008-38-C7 / FA8650-14-D-2411 TO FA8650-16-F-2639 (0008) Investigators:Abdallah, Shaaban; Turner, Mark 08-01-2018 -06-30-2019 Department of the Air Force Request for Proposal (RFP): 2018/2019 Aerospace Propulsion Outreach Program (APOP) Role:Collaborator $5,090.00 Awarded Level:Federal
Grant: #PO200-1J-14Y16211 Investigators:Abdallah, Shaaban; Jog, Milind; Manglik, Raj 02-01-2012 -12-31-2012 General Electric Aviation Fan Compartment Cooling and Ventilation Role:PI $60,000.00 Active Level:Industry
Grant: #PO# 200-1J-14Y16212 Investigators:Abdallah, Shaaban; Jog, Milind; Manglik, Raj 02-01-2012 -12-31-2012 General Electric Aviation Core Compartment Cooling and Ventilation Role:PI $60,000.00 Active Level:Industry
Grant: #TECH-09-022 Investigators:Abdallah, Shaaban; Cohen, Kelly; Hamed, Awatef; Jeng, San-Mou; Jog, Milind; Khosla, Prem; Lee, Jay; Qian, Dong; Schulz, Mark; Shanov, Vesselin; Singh, Raj; Steckl, Andrew; Turner, Mark; Vasudevan, Vijay; Walker, Bruce 08-18-2008 -08-17-2013 Ohio Department of Development Intelligent Propulsion and Power Systems and Their Life Management Role:Collaborator $27,492,308.00 Active Level:State of Ohio
Investigators:Abdallah, Shaaban 10-01-2024 -04-02-2025 General Electric Aviation GE Hybrid LPT Capstone Kaiser Role:PI 12000.00 Hold Level:Industry
Publications
Peer Reviewed Publications
Han D.;Liu G.;Abdallah S. (01-30-2019). An Eulerian–Lagrangian–Lagrangian method for solving thin moving rigid body immersed in the fluid. Computers and Fluids, 179, 687-701More Information
Abdallah S.; Bhagwat P.; Indraneel T.; Jayakumar V.; Shiyani D.; Soni A. (01-01-2019). Magnetic brake testing for hyperloop pod design. AIAA Scitech 2019 ForumMore Information
Abdallah S.; Indraneel T.; Jayakumar V.; Shiyani D.; Soni A.; Tyagi K. (01-01-2019). Levitation array testing for hyperloop pod design. AIAA Scitech 2019 ForumMore Information
Gupta G.;Abdallah S. (01-01-2018). Propeller force-constant modeling for multirotor UAVs from experimental estimation of inflow velocit. International Journal of Aerospace Engineering, 2018More Information
Shaheen M.;Abdallah S. (02-01-2017). Efficient clusters and patterned farms for Darrieus wind turbines. Sustainable Energy Technologies and Assessments, 19, 125-135More Information
Shaheen M.;Abdallah S. (09-01-2016). Development of efficient vertical axis wind turbine clustered farms. Renewable and Sustainable Energy Reviews, 63, 237-244More Information
Mishra S.;Abdallah S.;Turner M. (01-01-2016). Flow characteristics of a novel centrifugal compressor design. Proceedings of the ASME Turbo Expo, 2D-2016More Information
Shaheen M.;El-Sayed M.;Abdallah S. (02-01-2015). Numerical study of two-bucket Savonius wind turbine cluster. Journal of Wind Engineering and Industrial Aerodynamics, 137, 78-89More Information
Fan H.;Abdallah S. (08-19-2013). CFD simulations of transonic flow under small disturbances. 51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition 2013
Shuhaiber J.;Niehaus J.;Gottliebson W.;Abdallah S. (08-01-2013). Energy loss and coronary flow simulation following hybrid stage i palliation: A hypoplastic left hea. Interactive Cardiovascular and Thoracic Surgery, 17 (2) , 308-313More Information
Lafountain C.;Cohen K.;Abdallah S. (12-01-2012). Use of XFOIL in design of camber-controlled morphing UAVs. Computer Applications in Engineering Education, 20 (4) , 673-680More Information
Fayyad S.;Hamdan M.;Abdallah S. (12-01-2011). Assessment of high temperatures sound transmission losses and noise reduction factor for a DPF using. Jordan Journal of Mechanical and Industrial Engineering, 5 (5) , 425-432
Italiano P.;Lafountain C.;Cohen K.;Abdallah S. (12-01-2011). Tensegrity structure as the control base of a flight simulator. AIAA Infotech at Aerospace Conference and Exhibit 2011
Soliman S.;Abdallah S. (11-25-2011). CFD investigation of powdered vaccine and gas dynamics in biolistic gun. Powder Technology, 214 (1) , 135-142More Information
Soliman S.;Abdallah S.;Gutmark E.;Turner M. (04-10-2011). Numerical simulation of microparticles penetration and gas dynamics in an axi-symmetric supersonic n. Powder Technology, 208 (3) , 676-683More Information
Galbraith M.;Abdallah S. (01-01-2011). Implicit solutions of incompressible navier-stokes equations using the pressure gradient method. AIAA Journal, 49 (11) , 2491-2501More Information
Sabo C.;Cohen K.;Kumar M.;Abdallah S. (12-14-2010). Effectiveness of 2D path planning in real time using fuzzy logic. 48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition
Lafountain C.;Cohen K.;Abdallah S. (12-13-2010). AEROMORPH as a morphing design tool in an educational environment. 48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition
Hamdan M.;Abdallah S.;Al-Qaisia A. (07-19-2010). Modeling and study of dynamic performance of a valveless micropump. Journal of Sound and Vibration, 329 (15) , 3121-3136More Information
Galbraith M.;Abdallah S. (12-01-2009). Implicit solutions of the incompressible navier-stokes equations using the pressure gradient method. 47th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition
Lafountain C.;Cohen K.;Abdallah S. (12-01-2009). Camber controlled airfoil design for morphing UAV. 47th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition
Sabo C.;Cohen K.;Kumar M.;Abdallah S. (12-01-2009). Path planning of a fire-fighting aircraft using fuzzy logic. 47th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition
Khosla P.;Abdallah S. (08-01-2006). A review of streamline coordinate approach for inviscid flows. Computers and Fluids, 35 (7) , 670-675More Information
Genaidy A.;Karwowski W.;Ravelo E.;Abdallah S.;Shell R.;Holley M. (01-01-2006). Theoretical basis for general mixed object handling equations based on mechanical work required. Theoretical Issues in Ergonomics Science, 7 (5) , 469-490More Information
Waters T.;Yeung S.;Genaidy A.;Callaghan J.;Barriera-Viruet H.;Abdallah S.;Kumar S. (01-01-2006). Cumulative spinal loading exposure methods for manual material handling tasks. Part 2: Methodologica. Theoretical Issues in Ergonomics Science, 7 (2) , 131-148More Information
Abdallah S.;Genaidy A.;Karwowski W.;Shell R.;Sonbol A.;Ravelo E.;Holley M. (01-01-2005). Theoretical basis for general lifting equations based on mechanical work performed during manual lif. Theoretical Issues in Ergonomics Science, 6 (6) , 551-564More Information
Abdallah S.;Genaidy A.;Salem O.;Karwowski W.;Shell R. (09-01-2004). The concept of work compatibility: An integrated design criterion for improving workplace human perf. Human Factors and Ergonomics In Manufacturing, 14 (4) , 379-402More Information
Poondru S.;Abdallah S. (07-01-2004). Fine-mesh solutions for incompressible navier-stokes equations using the direct matrix inversion met. AIAA Paper, 6973-6983
Poondru S.;Abdallah S. (12-01-2003). Direct matrix inversion in symbolic form for solutions of the transport equation. 41st Aerospace Sciences Meeting and Exhibit
Ghizawi N.;Abdallah S. (01-01-1998). Parallel processing scheme for the Navier-Stokes equations, part 1: Scheme development. AIAA Journal, 36 (11) , 2013-2019More Information
Ghizawi N.;Abdallah S. (01-01-1998). Parallel processing scheme for the Navier-Stokes equations, part 2: Parallel implementation. AIAA Journal, 36 (11) , 2020-2026More Information
Russell P.;Abdallah S. (01-01-1997). Dilation-free solutions for the incompressible flow equations on nonstaggered grids. AIAA Journal, 35 (3) , 585-586More Information
Hassan K.;Abdallah S.;Lee Y. (12-01-1995). Three-dimensional solutions for incompressible turbulent flow in a high Reynolds number pump. American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FED, 227, 109-116
Abdallah S. (01-01-1995). Comments on the Fractional Step Method. Journal of Computational Physics, 117 (1) , 179-180More Information
Abdallah S. (01-01-1994). Parallel processing for implicit solutions of the Navier-Stokes equations. AIAA Journal, 32 (12) , 2469-2471More Information
Huang Z.;Merkle C.;Abdallah S.;Tarbell J. (01-01-1994). Numerical simulation of unsteady laminar flow through a tilting disk heart valve: Prediction of vort. Journal of Biomechanics, 27 (4) , 391-402More Information
Sotiropoulos F.;Abdallah S. (01-01-1992). A primitive variable method for the solution of three-dimensional incompressible viscous flows. Journal of Computational Physics, 103 (2) , 336-349More Information
Sotiropoulos F.;Abdallah S. (01-01-1991). The discrete continuity equation in primitive variable solutions of incompressible flow. Journal of Computational Physics, 95 (1) , 212-227More Information
Sotiropoulos F.;Abdallah S. (01-01-1990). Coupled fully implicit solution procedure for the steady incompressible Navier-Stokes equations. Journal of Computational Physics, 87 (2) , 328-348More Information
Abdallah S.;Smith C.F. (01-01-1990). Three-Dimensional solutions for inviscid incompressible flow in turbomactiines. Journal of Turbomachinery, 112 (3) , 391-398More Information
Huang Z.;Abdallah S.;Tarbell J. (01-01-1990). Numerical simulation of blood flow near a heart valve. Bioengineering, Proceedings of the Northeast Conference, 23-24
Abdallah S.;Smith C.F. (12-01-1989). Three-dimensional solutions for inviscid incompressible flow in turbomachines. American Society of Mechanical Engineers (Paper)
Abdallah S.;Deutsch S. (01-01-1989). Comment on ‘generalized potential flow theory and direct calculation of velocities applied to the nu. International Journal for Numerical Methods in Fluids, 9 (10) , 1299-1301More Information
Abdallah S.;Smith C. (01-01-1989). Three-dimensional solutions for inviscid incompressible flow in turbomachines. Proceedings of the ASME Turbo Expo, 1More Information
Abdallah S.;Dreyer J. (01-01-1988). Dirichlet and Neumann boundary conditions for the pressure poisson equation of incompressible flow. International Journal for Numerical Methods in Fluids, 8 (9) , 1029-1036More Information
Abdallah S.;Dreyer J. (01-01-1988). Dirichlet and Neumann boundary conditions for the pressure Poisson equation of incompressible flow. INT. J. NUMER. METHODS FLUIDS, 8 (9 , Sep. 1988, p.1029-1036.)
Abdallah S.;Smith C.F.;McBride M.W. (01-01-1988). Unified equation of motion (UEM) approach as applied to S1 turbomachinery problems. Journal of Fluids Engineering, Transactions of the ASME, 110 (3) , 251-256More Information
Abdallah S. (01-01-1987). Numerical solutions for the incompressible Navier-Stokes equations in primitive variables using a no. Journal of Computational Physics, 70 (1) , 193-202More Information
Abdallah S. (01-01-1987). Numerical solutions for the pressure Poisson equation with Neumann boundary conditions using a non-s. Journal of Computational Physics, 70 (1) , 182-192More Information
Abdallah S.;Henderson R. (01-01-1987). Improved approach to the streamline curvature method in turbomachinery. Journal of Fluids Engineering, Transactions of the ASME, 109 (3) , 213-217More Information
Abdallah S.; Chen J. (01-01-1987). COMPUTATION OF INCOMPRESSIBLE FLOW IN TURBOMACHINES USING THE PRIMITIVE VARIABLE FORMULATION. American Society of Mechanical Engineers (Paper)
Abdallah S.;Henderson R. (01-01-1987). Improved approach to the streamline cuvature method in turbomachinery. TRANS. ASME J. FLUIDS ENGNG., 109 (3 , Sep. 1987, p.213-217.)
Abdallah S.; McBride M.; Smith C. (01-01-1987). UNIFIED EQUATION OF MOTION (UEM) APPROACH AS APPLIED TO S1 TURBOMACHINERY PROBLEMS. American Society of Mechanical Engineers (Paper)
Abdallah S.;Smith H. (01-01-1986). Computation of inviscid incompressible flow using the primitive variable formulation. Journal of Turbomachinery, 108 (1) , 68-75More Information
Hamed A.;Abdallah S. (01-01-1986). Internal three-dimensional viscous flow solution using the streamlike function. Journal of Fluids Engineering, Transactions of the ASME, 108 (3) , 348-353More Information
Hamed A.;Abdallah S. (01-01-1986). Internal three-dimensional viscous flow solution using the streamlike function. TRANS. ASME J. FLUIDS ENGNG., 108 (3 , Sep. 1986, p.348-353.)
Abdallah S.;Henderson R. (01-01-1985). IMPROVED APPROACH TO THE STREAMLINE CURVATURE METHOD IN TURBOMACHINERY. American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FED, 32, 217-222
Abdallah S.;Henderson R. (01-01-1985). Improved approach to the streamline curvature method in turbomachinery. IN: THREE DIMENSIONAL FLOW PHENOMENA IN FLUID MACHINERY, PRESENTED AT ASME WINTER ANNUAL MEETING, (MIAMI BEACH, U.S.A.: NOV., 32 ), 217-222
Hamed A.;Abdallah S. (12-01-1984). ELLIPTIC SOLUTION OF 3-D INTERNAL VISCOUS FLOW USING THE STREAMLIKE FUNCTION. Comput Methods in Viscous Flows, 629-645
Abdallah S. (01-01-1984). Comment on ‘modification of the SMAC method in two dimensions’. International Journal for Numerical Methods in Fluids, 4 (2) , 203-205More Information
Abdallah S.; Hamed A. (01-01-1984). INTERNAL THREE-DIMENSIONAL VISCOUS FLOW SOLUTION USING THE STREAMLIKE FUNCTION. AIAA Paper
Abdallah S.;Hnamed A. (01-01-1983). The elliptic solution of the secondary flow problem. Journal of Engineering for Gas Turbines and Power, 105 (3) , 530-535More Information
Abdallah S.;Hamed A. (01-01-1982). The elliptic solution of the secondary flow problem.
Abdallah S.;Hamed A. (01-01-1982). The elliptic solution of the secondary flow problem. Proceedings of the ASME Turbo Expo, 1More Information
Abdallah S.;Hamed A. (01-01-1982). ELLIPTIC SOLUTION OF THE SECONDARY FLOW PROBLEM. American Society of Mechanical Engineers (Paper)
Abdallah S.;Hamed A. (01-01-1981). Inviscid solution for the secondary flow in curved ducts. AIAA Journal, 19 (8) , 993-999More Information
Abdallah S.;Hamed A. (12-01-1980). INVISCID SOLUTION FOR THE SECONDARY FLOW IN CURVED DUCTS. AIAA Paper
Abdallah S.;Hamed A. (01-01-1980). INVISCID SOLUTION FOR THE SECONDARY FLOW IN CURVED DUCTS. AIAA Paper
Hamed A.;Abdallah S. (01-01-1979). Streamlike function: A new concept in flow problems formulation. Journal of Aircraft, 16 (12) , 801-802More Information