Photo of Daning Huang

Daning Huang

Assistant Professor

Affiliation(s):

  • Aerospace Engineering
  • Center for Acoustics and Vibration

235A Hammond Building

daning@psu.edu

814-863-9714

Research Website

Google Scholar Profile

Research Areas:

Computational and Experimental Fluid Dynamics; Structural Dynamics and Adaptive Structures; Vehicle Systems Engineering

Interest Areas:

Aeroelasticity and aerothermoelasticity, multidisciplinary design and optimization, reduced-order modeling, uncertainty quantification

 
 

 

Education

  • BE, Aircraft Design and Engineering, Nanjing University of Aeronautics and Astronautics, 2013
  • ME, Aerospace Engineering, University of Michigan, 2014
  • Ph D, Aerospace Engineering, University of Michigan, 2019

Publications

Journal Articles

  • Daning Huang and Peretz P. Friedmann, 2020, "A multi-objective optimization framework for hypersonic aerothermoelastic scaling laws and its application to skin panels", AIAA Journal, 58, (7), pp. 3250-3257
  • Daning Huang and Peretz P. Friedmann, 2020, "An aerothermoelastic analysis framework with reduced-order modeling applied to composite panels in hypersonic flows", Journal of Fluids and Structures, 94, pp. 102927
  • Daning Huang, Peretz P. Friedmann and Tomer Rokita, 2019, "Aerothermoelastic Scaling Laws for Hypersonic Skin Panel Configurations with Arbitrary Flow Orientation", AIAA Journal, 57, (10), pp. 4377-4392
  • Daning Huang, Tomer Rokita and Peretz P. Friedmann, 2018, "Integrated aerothermoelastic analysis framework with application to skin panels", AIAA Journal, 56, (11), pp. 4562-4581

Conference Proceedings

  • Aravinth Sadagopan, Daning Huang, Adam Jirasek, J├╝rgen Seidel, Anshuman Pandey and Katya M. Casper, 2022, "An Experimental and Computational Correlation Study for Fluid-Thermal-Structural Interaction of a Control Surface in Hypersonic Flow", American Institute of Aeronautics and Astronautics, San Diego, CA, pp. 1-25
  • Brian Coulter, Zhenbo Wang and Daning Huang, 2022, "Geometric Design of Hypersonic Vehicles for Optimal Mission Performance using Machine Learning", American Institute of Aeronautics and Astronautics, San Diego, CA, pp. 1-21
  • Damien Gueho, Daning Huang and Puneet Singla, 2022, "Koopman Operators for Bifurcation Analysis in Hypersonic Aerothermoelasticity", American Institute of Aeronautics and Astronautics, San Diego, CA, pp. 1-14
  • Carlos A. Vargas Venegas and Daning Huang, 2022, "Physics-Infused Reduced Order Modeling of Hypersonic Aerothermal Loads for Aerothermoelastic Analysis", American Institute of Aeronautics and Astronautics, San Diego, CA, pp. 1-21
  • Yin Yu, Desirae A. Major, Daning Huang and Sven Schmitz, 2022, "Reduced-Order Modeling of Ship Airwakes with Atmospheric Turbulence Effects using Dynamic Graph Networks", American Institute of Aeronautics and Astronautics, San Diego, CA, pp. 1-18
  • Kalki Sharma, Vidullan Surenderan, Yin Yu, Daning Huang, Kenneth S Brentner and Phuriwat Anusonti-Inthra, 2021, "Modeling of the Blade Crossover Interaction using Machine Learning", American Helicopter Society, Virtual, pp. 1-14
  • Aravinth Sadagopan, Daning Huang, Umran Duzel, Liza E. Martin and Kyle M. Hanquist, 2021, "Assessment of High-Temperature Effects on Hypersonic Aerothermoelastic Analysis using Multi-Fidelity Multi-Variate Surrogates", American Institute of Aeronautics and Astronautics, Virtual, pp. 1-24
  • Carlos A. Vargas Venegas and Daning Huang, 2021, "Expedient Hypersonic Aerothermal Prediction for Aerothermoelastic Analysis Via Field Inversion and Machine Learning", American Institute of Aeronautics and Astronautics, Virtual, pp. 1-24
  • Brian Coulter, Zhenbo Wang, Daning Huang and Yuehan Yao, 2021, "Hypersonic Trajectory Optimization with High-Fidelity Aerothermodynamic Models", American Institute of Aeronautics and Astronautics, Virtual, pp. 1-17
  • Aravinth Sadagopan, Daning Huang, Haosen Xu and Xiang Yang, 2021, "Numerical Investigation of Fluid-Thermal-Structural Interaction for a Control Surface in Hypersonic Flow", American Institute of Aeronautics and Astronautics, Virtual, pp. 1-21
  • Damien Gueho, Puneet Singla and Daning Huang, 2021, "Sparse Nonlinear System Identification for Hypersonic Aerothermoelastic Analysis with Stochastic Loads", American Institute of Aeronautics and Astronautics, Virtual, pp. 1-15
  • Damien Gueho, Puneet Singla and Daning Huang, 2021, "Time-varying Linear Reduced Order Model for Hypersonic Aerothermoelastic Analysis", American Institute of Aeronautics and Astronautics, Virtual, pp. 1-18
  • Kyle M Hanquist, Umran Duzel, Martin Liza, Aravinth Sadagopan and Daning Huang, 2020, "Modeling High-Temperature Flow Field Effects Relevant to Fluid-Thermal-Structural Interactions", JANNAF, Virtual, pp. 1-24
  • Aravinth Sadagopan, Daning Huang and Kyle M. Hanquist, 2020, "Impact of High-Temperature Effects on the Aerothermoelastic Behavior of Composite Skin Panels in Hypersonic Flow", American Institute of Aeronautics and Astronautics, Orlando, FL, pp. 1-24
  • Daning Huang and Peretz P. Friedmann, 2019, "A multi-objective optimization framework for hypersonic aerothermoelastic scaling laws and its application to skin panels", IFASD, Savannah, GA, pp. 1-44
  • Daning Huang and Peretz P. Friedmann, 2019, "A surrogate-based optimization framework for hypersonic aerothermoelastic scaling laws with application to skin panels", American Institute of Aeronautics and Astronautics, San Diego, CA, pp. 1-27
  • Daning Huang, Tomer Rokita and Peretz P. Friedmann, 2018, "Aerothermoelastic scaling laws for hypersonic skin panel configurations with arbitrary flow orientation", American Institute of Aeronautics and Astronautics, Kissimmee, FL, pp. 1-23
  • Tomer Rokita, Daning Huang and Peretz P. Friedmann, 2018, "Efficient modeling of fluid-structure-thermal interaction in hypersonic flow", IACAS, Haifa, Israel, pp. 1492-1520
  • Daning Huang, Tomer Rokita and Peretz P. Friedmann, 2017, "An aerothermoelastic analysis framework enhanced by model order reduction with applications", American Institute of Aeronautics and Astronautics, Grapevine, TX, pp. 1-19
  • Daning Huang, Tomer Rokita and Peretz P. Friedmann, 2017, "Efficient reduced-order modeling for skin panels in hypersonic flow and its application to generating aerothermoelastic scaling laws", IFASD, Como, Italy, pp. 1-30
  • Daning Huang and Peretz P. Friedmann, 2016, "An integrated aerothermoelastic analysis framework for predicting the response of composite panels", American Institute of Aeronautics and Astronautics, San Diego, CA, pp. 1-30

Research Projects

Honors and Awards

  • Rackham Predoctoral Fellowship, University of Michigan, 2019

Service

Service to Penn State:

  • Committee Work, Committee Member, Engineering Faculty Council, April 2021
  • Committee Work, Chairperson, Lead, Center for Acoustics and Vibration, Artificial Intelligence and Machine Learning Technical Group, February 2021

Service to External Organizations:

 


 

About

The Center for Acoustics and Vibration performs basic and applied research in vibration and acoustics, supports graduate education, and transfers technology to U.S. industry and government. The center includes faculty, graduate students, and staff in laboratories throughout the College of Engineering and at the Applied Research Lab. These laboratories perform both disciplinary and cross-disciplinary research in areas related to acoustics and vibration.

Center for Acoustics and Vibrations

College of Engineering

The Pennsylvania State University

University Park, PA 16802