Optimising laser absorption tomography beam arrays for imaging chemical species in gas turbine engine exhaust plumes

David Mccormick; D. McCormick; M.G. Twynstra; K.J. Daun; H. McCann

Optimising laser absorption tomography beam arrays for imaging chemical species in gas turbine engine exhaust plumes

David Mccormick, D. McCormick, M.G. Twynstra, K.J. Daun, H. McCann

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

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Abstract

This paper will describe the application of resolution matrices to the design of an optimised 126 beam, 6m absorption tomography array for imaging concentrations of CO2 in the exhaust plume of a Rolls-Royce Trent 1000 gas turbine engine. The resolution matrix will be used to define a fitness value, which is a function the beam configuration, and is minimised by the optimal beam arrangement. Constraints ensure that the optimised beam arrangement can be implemented in a real tomography system. Genetic algorithms are used to determine the optimal array design from the large problem set. Results for image reconstructions of a quasi-realistic phantom of the exhaust plume for each of the array designs are presented with indications of the reconstruction errors. From the results, conclusions are drawn on the suitability of applying resolution matrices to the design of beam arrays for real limited-data tomographic systems.

Original language	English
Title of host publication	Proc. 7th World Congress on Industrial Process Tomography
Publisher	International Society for Industrial Process Tomography
Pages	505-514
Number of pages	10
Publication status	Published - Sept 2013
Event	7th World Congress on Industrial Process Tomography - Krakow, Poland Duration: 2 Sept 2013 → 5 Sept 2013

Conference

Conference	7th World Congress on Industrial Process Tomography
City	Krakow, Poland
Period	2/09/13 → 5/09/13

Keywords

absorption tomography
array design
image reconstruction
chemical species
gas turbine engines

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@inproceedings{86f10163756b44ee87d5446d04c1ff58,

title = "Optimising laser absorption tomography beam arrays for imaging chemical species in gas turbine engine exhaust plumes",

abstract = "This paper will describe the application of resolution matrices to the design of an optimised 126 beam, 6m absorption tomography array for imaging concentrations of CO2 in the exhaust plume of a Rolls-Royce Trent 1000 gas turbine engine. The resolution matrix will be used to define a fitness value, which is a function the beam configuration, and is minimised by the optimal beam arrangement. Constraints ensure that the optimised beam arrangement can be implemented in a real tomography system. Genetic algorithms are used to determine the optimal array design from the large problem set. Results for image reconstructions of a quasi-realistic phantom of the exhaust plume for each of the array designs are presented with indications of the reconstruction errors. From the results, conclusions are drawn on the suitability of applying resolution matrices to the design of beam arrays for real limited-data tomographic systems.",

keywords = "absorption tomography, array design, image reconstruction, chemical species, gas turbine engines",

author = "David Mccormick and D. McCormick and M.G. Twynstra and K.J. Daun and H. McCann",

year = "2013",

month = sep,

language = "English",

pages = "505--514",

booktitle = "Proc. 7th World Congress on Industrial Process Tomography",

publisher = "International Society for Industrial Process Tomography",

address = "Not specified",

note = "7th World Congress on Industrial Process Tomography ; Conference date: 02-09-2013 Through 05-09-2013",

}

Mccormick, D, McCormick, D, Twynstra, MG, Daun, KJ & McCann, H 2013, Optimising laser absorption tomography beam arrays for imaging chemical species in gas turbine engine exhaust plumes. in Proc. 7th World Congress on Industrial Process Tomography. International Society for Industrial Process Tomography, pp. 505-514, 7th World Congress on Industrial Process Tomography, Krakow, Poland, 2/09/13.

Optimising laser absorption tomography beam arrays for imaging chemical species in gas turbine engine exhaust plumes. / Mccormick, David; McCormick, D.; Twynstra, M.G. et al.
Proc. 7th World Congress on Industrial Process Tomography. International Society for Industrial Process Tomography, 2013. p. 505-514.

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Optimising laser absorption tomography beam arrays for imaging chemical species in gas turbine engine exhaust plumes

AU - Mccormick, David

AU - McCormick, D.

AU - Twynstra, M.G.

AU - Daun, K.J.

AU - McCann, H.

PY - 2013/9

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N2 - This paper will describe the application of resolution matrices to the design of an optimised 126 beam, 6m absorption tomography array for imaging concentrations of CO2 in the exhaust plume of a Rolls-Royce Trent 1000 gas turbine engine. The resolution matrix will be used to define a fitness value, which is a function the beam configuration, and is minimised by the optimal beam arrangement. Constraints ensure that the optimised beam arrangement can be implemented in a real tomography system. Genetic algorithms are used to determine the optimal array design from the large problem set. Results for image reconstructions of a quasi-realistic phantom of the exhaust plume for each of the array designs are presented with indications of the reconstruction errors. From the results, conclusions are drawn on the suitability of applying resolution matrices to the design of beam arrays for real limited-data tomographic systems.

AB - This paper will describe the application of resolution matrices to the design of an optimised 126 beam, 6m absorption tomography array for imaging concentrations of CO2 in the exhaust plume of a Rolls-Royce Trent 1000 gas turbine engine. The resolution matrix will be used to define a fitness value, which is a function the beam configuration, and is minimised by the optimal beam arrangement. Constraints ensure that the optimised beam arrangement can be implemented in a real tomography system. Genetic algorithms are used to determine the optimal array design from the large problem set. Results for image reconstructions of a quasi-realistic phantom of the exhaust plume for each of the array designs are presented with indications of the reconstruction errors. From the results, conclusions are drawn on the suitability of applying resolution matrices to the design of beam arrays for real limited-data tomographic systems.

KW - absorption tomography

KW - array design

KW - image reconstruction

KW - chemical species

KW - gas turbine engines

M3 - Conference contribution

SP - 505

EP - 514

BT - Proc. 7th World Congress on Industrial Process Tomography

PB - International Society for Industrial Process Tomography

T2 - 7th World Congress on Industrial Process Tomography

Y2 - 2 September 2013 through 5 September 2013

ER -

Optimising laser absorption tomography beam arrays for imaging chemical species in gas turbine engine exhaust plumes

Abstract

Conference

Keywords

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