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Showing 11 publications by Michael van de Noort

An Experimental Investigation Into Particle Deposition in Double-Wall Effusion Cooling Systems

van de Noort M, Hickling C, Villain FYA, Ireland PT, Gillespie DRH et al. (2025), Volume 11: Turbomachinery — Deposition, Erosion, Fouling, and Icing; Design Methods & CFD Modeling for Turbomachinery; Ducts, Noise & Component Interactions

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BibTeX View PDF 
@inproceedings{anexperimentali-2025/8,
  title={An Experimental Investigation Into Particle Deposition in Double-Wall Effusion Cooling Systems},
  author={van de Noort M, Hickling C, Villain FYA, Ireland PT, Gillespie DRH et al.},
  booktitle={ASME Turbo Expo 2025: Turbomachinery Technical Conference and Exposition},
  year = "2025"
}

Fatigue-creep design of transpiration cooled nickel gas turbine blades via low order aerothermal-stress and crystal plasticity finite element modelling

Skamniotis C, van de Noort M, Cocks ACF & Ireland P (2025), International Journal of Mechanical Sciences, 287, 109955-109955

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BibTeX View PDF 
@article{fatiguecreepdes-2025/2,
  title={Fatigue-creep design of transpiration cooled nickel gas turbine blades via low order aerothermal-stress and crystal plasticity finite element modelling},
  author={Skamniotis C, van de Noort M, Cocks ACF & Ireland P},
  journal={International Journal of Mechanical Sciences},
  volume={287},
  number={109955},
  pages={109955-109955},
  publisher={Elsevier BV},
  year = "2025"
}

Genetic algorithm-based optimisation of a double-wall effusion cooling system for a high-pressure turbine nozzle guide vane

van de Noort M & Ireland PT (2024), International Journal of Turbomachinery Propulsion and Power, 9(1)

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BibTeX View PDF 
@article{geneticalgorith-2024/2,
  title={Genetic algorithm-based optimisation of a double-wall effusion cooling system for a high-pressure turbine nozzle guide vane},
  author={van de Noort M & Ireland PT},
  journal={International Journal of Turbomachinery Propulsion and Power},
  volume={9},
  number={6},
  publisher={MDPI},
  year = "2024"
}

A Low Order Mass Flow-Heat Transfer-Stress Model as a Design Code for Transpiration Cooled Nickel Gas Turbine Blades and a Guide for Crystal Plasticity-Based Fatigue-Creep Life Assessment

Skamniotis C, van de Noort M, Cocks A & Ireland P (2024)

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BibTeX View PDF 
@misc{alowordermassfl-2024/,
  title={A Low Order Mass Flow-Heat Transfer-Stress Model as a Design Code for Transpiration Cooled Nickel Gas Turbine Blades and a Guide for Crystal Plasticity-Based Fatigue-Creep Life Assessment},
  author={Skamniotis C, van de Noort M, Cocks A & Ireland P},
  year = "2024"
}

Effects of manufacturing tolerances on double-wall effusion cooling

van de Noort M, Ireland PT & Telisinghe JC (2023), Journal of Turbomachinery, 146(1)

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BibTeX View PDF 
@article{effectsofmanufa-2023/10,
  title={Effects of manufacturing tolerances on double-wall effusion cooling},
  author={van de Noort M, Ireland PT & Telisinghe JC},
  journal={Journal of Turbomachinery},
  volume={146},
  number={011009},
  publisher={American Society of Mechanical Engineers},
  year = "2023"
}

Effects of Manufacturing Tolerances on Double Wall Effusion Cooling

van de Noort M, Ireland PT & Telisinghe JC (2023)

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BibTeX View PDF 
@inproceedings{effectsofmanufa-2023/6,
  title={Effects of Manufacturing Tolerances on Double Wall Effusion Cooling},
  author={van de Noort M, Ireland PT & Telisinghe JC},
  booktitle={Volume 7B: Heat Transfer — General Interest/Additive Manufacturing Impacts on Heat Transfer; Internal Air Systems; Internal Cooling},
  year = "2023"
}

GENETIC ALGORITHM BASED OPTIMISATION OF A DOUBLE-WALL EFFUSION COOLING SYSTEM FOR A HIGH-PRESSURE TURBINE NOZZLE GUIDE VANE

van de Noort M & Ireland PT (2023), European Conference on Turbomachinery Fluid Dynamics and Thermodynamics, ETC

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BibTeX 
@inproceedings{geneticalgorith-2023/1,
  title={GENETIC ALGORITHM BASED OPTIMISATION OF A DOUBLE-WALL EFFUSION COOLING SYSTEM FOR A HIGH-PRESSURE TURBINE NOZZLE GUIDE VANE},
  author={van de Noort M & Ireland PT},
  year = "2023"
}

Low order heat & mass flow network modelling for quasi-transpiration cooling systems

van de Noort M, Murray A & Ireland P (2022), Proceedings of the ASME Turbo Expo 2022: Turbomachinery Technical Conference and Exposition, 6-B

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@inproceedings{loworderheatmas-2022/10,
  title={Low order heat & mass flow network modelling for quasi-transpiration cooling systems},
  author={van de Noort M, Murray A & Ireland P},
  booktitle={ASME Turbo Expo 2022: Turbomachinery Technical Conference and Exposition},
  year = "2022"
}

A low order flow network model for double-wall effusion cooling systems

van de Noort M & Ireland P (2022), International Journal of Turbomachinery, Propulsion and Power, 7(1)

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BibTeX View PDF 
@article{aloworderflowne-2022/2,
  title={A low order flow network model for double-wall effusion cooling systems},
  author={van de Noort M & Ireland P},
  journal={International Journal of Turbomachinery, Propulsion and Power},
  volume={7},
  number={5},
  publisher={MDPI},
  year = "2022"
}

A LOW ORDER FLOW NETWORK MODEL FOR DOUBLE-WALL EFFUSION COOLING SYSTEMS

van de Noort M & Ireland PT (2021), European Conference on Turbomachinery Fluid Dynamics and Thermodynamics, ETC

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BibTeX 
@inproceedings{aloworderflowne-2021/1,
  title={A LOW ORDER FLOW NETWORK MODEL FOR DOUBLE-WALL EFFUSION COOLING SYSTEMS},
  author={van de Noort M & Ireland PT},
  year = "2021"
}

A LOW ORDER FLOW NETWORK MODEL FOR DOUBLE-WALL EFFUSION COOLING SYSTEMS

van de Noort M & Ireland PT (2021), 14th European Conference on Turbomachinery Fluid Dynamics and Thermodynamics, ETC 2021

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BibTeX 
@inproceedings{aloworderflowne-2021/1,
  title={A LOW ORDER FLOW NETWORK MODEL FOR DOUBLE-WALL EFFUSION COOLING SYSTEMS},
  author={van de Noort M & Ireland PT},
  year = "2021"
}