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15 - General Engineering

Lancaster University

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Output 57 of 84 in the submission

Article title

Numerical simulation of hydrogen impinging jet flame using flamelet generated manifold reduction

Type

D - Journal article

DOI

10.1016/j.ijhydene.2011.11.144

Title of journal

International journal of hydrogen energy

Article number

Volume number

Issue number

First page of article

4502

ISSN of journal

0360-3199

Year of publication

2012

URL

http://www.sciencedirect.com/science/journal/03603199

Number of additional authors

Additional information

Using advanced direct numerical simulation (DNS) and flamelet generated manifolds (FGM) based on detailed chemical kinetics, this multi-disciplinary work involving international collaborations identified the effects of buoyancy and jet shear instability on the dynamics of the non-premixed hydrogen impinging jet flame for the first time. The original DNS-FGM results provided detailed information and insight on the reacting flow field, which is important to understand hydrogen combustion for clean energy conversion.

This work was supported by the EPSRC grant EP/G062714/2 and the computations were performed on the HECToR machine with the resources awarded by the EPSRC Resource Allocation Panel.

Interdisciplinary

Cross-referral requested

Research group

B - Energy

Proposed double-weighted

Double-weighted statement

Reserve for a double-weighted output

Non-English

English abstract