Joshua Brinkerhoff, PhD

Associate Professor

Engineering, Mechanical

Other Titles: Associate Director, Research & Industrial Partnerships
Office: EME4217
Phone: 250.807.8238
Email: joshua.brinkerhoff@ubc.ca

Research Summary

Computational fluid dynamics; Turbomachinery; Multiphase turbulent flows; Hydrogen; Wind energy; Biofluid mechanics

Courses & Teaching

Mechanics of materials; Alternative energy systems; Turbulence; Computational fluid dynamics; Aircraft conceptual design & aerodynamics

Biography

Dr. Brinkerhoff received his PhD in Aerospace Engineering from Carleton University in Ottawa, ON. In addition to serving the School of Engineering as the Associate Director–Research & Industry Partnerships, Dr. Brinkerhoff leads the UBC-Okanagan Computational Fluid Dynamics Laboratory. His research focuses on conducting high-fidelity numerical simulations on the mutual interaction of flow instabilities, phase instabilities, and turbulence in a variety of applications. These include biomedical (modelling emphysema development in lungs; growth of turbulence in abdominal aortic aneurysms); renewable energy (wind farm/atmosphere interactions; novel vertical-axis wind turbines; wind turbine aerodynamics); hydrogen safety (detonation risk of hydrogen-blended natural gas; codes & standards for hydrogen technologies in transportation and aviation); cryogenics (liquid hydrogen storage, spills, and phase transitions; cavitation in liquid cryogens); and aerospace (all-electric aviation; hydrogen fuel for aerospace propulsion systems).

Websites

UBC-Okanagan Computational Fluid Dynamics Laboratory

Degrees

PhD, Aerospace Engineering (Carleton University)
BEng, Aerospace Engineering (Carleton University)

Research Interests & Projects

1. Laminar-to-turbulent transition
   • Leading-edge effects in swept boundary layers
   • Roughness and wake effects on growth of turbulent spots
   • Direct numerical simulation
2. Turbomachinery in the LNG industry
   • Predicting cavitation and transition in LNG turbomachinery
3. Multiphase turbulent flows
   • DNS of turbulence in fluidized bed reactors
   • Effect of turbulence on mineral extraction from wastewater streams
4. Air quality simulation
   • Transition in buoyancy-dominated flows
   • Pollutant transport in passively-ventilated buildings
   • Dispersion of volatile gas or liquid spills in the atmosphere
5. Biofluid mechanics
   • Simulations of airflow in the lungs
   • Simulating the impact of lung disease on respiratory air flows
   • Growth of turbulence in abdominal aortic aneurysms
6. Wind energy
   • Leading-edge droops to enhance the performance of horizontal-axis wind turbines
   • Energy harvesting from the wakes of highway vehicles via vertical-axis wind turbine
   • Large eddy simulation of wind farm blockage and induction effects

Selected Publications & Presentations

List of publications