Evaluating the Effect of Syngas Composition on Micro gas turbine Performance
Carbon monoxide; Combustion; Fossil fuels; Nitric oxide; Synthesis gas; Co content; CO emissions; Combustion efficiencies; Hydrocarbon feedstock; Hydrogen contents; Micro gas turbines; Steady-state condition; Syngas composition; Gas turbines; carbon emission; carbon monoxide; combustion; fossil fuel...
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2023
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my.uniten.dspace-227682023-05-29T14:12:08Z Evaluating the Effect of Syngas Composition on Micro gas turbine Performance Fareeza N. Tan E.S. Kumaran P. Indra T.M. Fadzilah N. Yoshikawa K. 57189248901 16425096800 56803626200 56997615100 57189248929 7402025496 Carbon monoxide; Combustion; Fossil fuels; Nitric oxide; Synthesis gas; Co content; CO emissions; Combustion efficiencies; Hydrocarbon feedstock; Hydrogen contents; Micro gas turbines; Steady-state condition; Syngas composition; Gas turbines; carbon emission; carbon monoxide; combustion; fossil fuel; future prospect; hydrocarbon; hydrogen; natural gas; nitric oxide; performance assessment; research work; turbine Syngas in nature can be derived from many sources for instance biomass, natural gas and any hydrocarbon feedstock. Therefore it can replace our reliance on the fossil fuel in future, as they are finite. This research covers the analysis on the combustion efficiency on eight syngas composition that have various hydrogen and carbon moxide (H2/CO) ratio and the comparisons on the nitric oxide (NOx) and carbon monoxide (CO) emissions. Each syngas was tested from 0kW load to 3kW load and all the data was taken upon the micro gas turbine (MGT) reaching stable and steady state conditions. It was found that high amount of hydrogen content in syngas lead to an increase in the combustion efficiency and emits more NOxemissions. CO emissions were released when the combustion efficiency is low and increase with the CO content in the syngas. Final 2023-05-29T06:12:08Z 2023-05-29T06:12:08Z 2016 Conference Paper 10.1088/1755-1315/32/1/012042 2-s2.0-84966614942 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84966614942&doi=10.1088%2f1755-1315%2f32%2f1%2f012042&partnerID=40&md5=77b6b90feb7d9cfc1415e51a4557d3a7 https://irepository.uniten.edu.my/handle/123456789/22768 32 1 12042 All Open Access, Gold Institute of Physics Publishing Scopus |
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Carbon monoxide; Combustion; Fossil fuels; Nitric oxide; Synthesis gas; Co content; CO emissions; Combustion efficiencies; Hydrocarbon feedstock; Hydrogen contents; Micro gas turbines; Steady-state condition; Syngas composition; Gas turbines; carbon emission; carbon monoxide; combustion; fossil fuel; future prospect; hydrocarbon; hydrogen; natural gas; nitric oxide; performance assessment; research work; turbine |
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57189248901 |
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57189248901 Fareeza N. Tan E.S. Kumaran P. Indra T.M. Fadzilah N. Yoshikawa K. |
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Conference Paper |
author |
Fareeza N. Tan E.S. Kumaran P. Indra T.M. Fadzilah N. Yoshikawa K. |
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Fareeza N. Tan E.S. Kumaran P. Indra T.M. Fadzilah N. Yoshikawa K. Evaluating the Effect of Syngas Composition on Micro gas turbine Performance |
author_sort |
Fareeza N. |
title |
Evaluating the Effect of Syngas Composition on Micro gas turbine Performance |
title_short |
Evaluating the Effect of Syngas Composition on Micro gas turbine Performance |
title_full |
Evaluating the Effect of Syngas Composition on Micro gas turbine Performance |
title_fullStr |
Evaluating the Effect of Syngas Composition on Micro gas turbine Performance |
title_full_unstemmed |
Evaluating the Effect of Syngas Composition on Micro gas turbine Performance |
title_sort |
evaluating the effect of syngas composition on micro gas turbine performance |
publisher |
Institute of Physics Publishing |
publishDate |
2023 |
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1806427319999397888 |
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13.222552 |