UK Consortium on Turbulent Reacting Flows (UKCTRF)
Lead Research Organisation:
University of Cambridge
Department Name: Engineering
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
Publications
Zhang, Y.
(2014)
Effect of wall heat loss on swirl-stabilised non-premixed flames with localised extinction
in 10th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements
Zhang H
(2015)
Prediction of Global Extinction Conditions and Dynamics in Swirling Non-premixed Flames Using LES/CMC Modelling
in Flow, Turbulence and Combustion
Zhang H
(2015)
Large Eddy Simulation/Conditional Moment Closure modeling of swirl-stabilized non-premixed flames with local extinction
in Proceedings of the Combustion Institute
Z. Chen
(2015)
Large eddy simulation of partially premixed flames
N. A. K. Doan
(2016)
DNS of MILD combustion with inhomogeneous fuel distribution
Demosthenous E
(2016)
Direct Numerical Simulations of Dual-Fuel Non-Premixed Autoignition
in Combustion Science and Technology
Demosthenous E
(2016)
Direct Numerical Simulations of premixed methane flame initiation by pilot n-heptane spray autoignition
in Combustion and Flame
N. A. K. Doan
(2016)
DNS of partially premixed MILD combustion: Preliminary investigation
Mastorakos E
(2017)
Forced ignition of turbulent spray flames
in Proceedings of the Combustion Institute
Doan, N. A. K.
(2017)
Modes of combustion and reaction zones morphology in MILD combustion
Nivarti G
(2017)
Direct Numerical Simulation of the bending effect in turbulent premixed flames
in Proceedings of the Combustion Institute
N.A.K. Doan
(2017)
DNS of MILD Combustion with inhomogeneous Fuel Distribution
Anh Khoa Doan
(2017)
Modes of Combustion and Reaction Zones Morphology in MILD Combustion
Giusti A
(2017)
Detailed chemistry LES/CMC simulation of a swirling ethanol spray flame approaching blow-off
in Proceedings of the Combustion Institute
Anh Khoa Doan
(2017)
DNS of partially premixed MILD Combustion
N. A. K. Doan
(2017)
Autoignition and Flame Propagation in MILD Combustion
Chen Z
(2017)
Large Eddy Simulation of flame edge evolution in a spark-ignited methane-air jet
in Proceedings of the Combustion Institute
N. A. K. Doan
(2017)
DNS of partially premixed MILD combustion,
Zhang H
(2017)
Modelling local extinction in Sydney swirling non-premixed flames with LES/CMC
in Proceedings of the Combustion Institute
Sitte MP
(2017)
Modelling of Spray Flames with Doubly Conditional Moment Closure.
in Flow, turbulence and combustion
Mastorakos E
(2017)
Forced ignition of turbulent spray flames
Doan N
(2017)
Multiscale analysis of turbulence-flame interaction in premixed flames
in Proceedings of the Combustion Institute
Zhang H
(2018)
LES/CMC Modelling of a Gas Turbine Model Combustor with Quick Fuel Mixing
in Flow, Turbulence and Combustion
Doan N
(2018)
DNS of MILD combustion with mixture fraction variations
in Combustion and Flame
Nivarti G
(2018)
Stretch Rate and Displacement Speed Correlations for Increasingly-Turbulent Premixed Flames
in Flow, Turbulence and Combustion
N.A.K. Doan
(2018)
Autoignition and deflagration in MILD combustion
Chen Z
(2018)
A priori investigation of subgrid correlation of mixture fraction and progress variable in partially premixed flames
in Combustion Theory and Modelling
Doan N
(2018)
DNS of MILD combustion with mixture fraction variations
Ahmed U
(2018)
Multiscale analysis of head-on quenching premixed turbulent flames
in Physics of Fluids
Doan Nguyen Anh Khoa
(2019)
Physical insights of non-premixed MILD combustion using DNS
Description | Computational models for natural gas engines and gas turbine combustors. |
Exploitation Route | Engineers can now design cleaner and more efficient engines, and can now understand how dual-fuel natural-gas engines (that have significant environmental advantages) work. |
Sectors | Aerospace, Defence and Marine,Energy,Transport |
Description | Norway - Trondheim |
Organisation | Norwegian University of Science and Technology (NTNU) |
Country | Norway |
Sector | Academic/University |
PI Contribution | Hosted and trained a PhD student from NTNU, Department of Department of Energy and Process Engineering. We developed the research idea conceptualization for joint work. |
Collaborator Contribution | The research student worked with the researcher employed on this project to execute the required scientific tasks. |
Impact | A paper is written and published in Proceedings of Combustion Institute based on this joint work. This paper is available at https://doi.org/10.1016/j.proci.2020.06.298 |
Start Year | 2019 |