1,723,238 research outputs found
sj-docx-8-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-8-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-3-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-3-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-6-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-6-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-13-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-13-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-10-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-10-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-11-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-11-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-7-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-7-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-12-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-12-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-4-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-4-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-1-pie-10.1177_09544089231210782 - Supplemental material for Performance enhancements and NO<sub>x</sub> emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques
No full textSupplemental material, sj-docx-1-pie-10.1177_09544089231210782 for Performance enhancements and NOx emission reductions using novel exhaust-driven hybrid gas turbine inlet air-cooling techniques by Ashraf M. Bassily in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
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