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https://doi.org/10.21278/brod75303

Optimization of exhaust ejector with lobed nozzle for marine gas turbine

Hong Shi ; College of Energy & Power Engineering, Jiangsu University of Science and Technology, Zhenjiang 212000, China *
Rui Wang ; College of Energy & Power Engineering, Jiangsu University of Science and Technology, Zhenjiang 212000, China
Yinglong Xiao ; Shanghai Marine Diesel Engine Research Institute, 3111 Huaning, Minhang, Shanghai 201108, China
Xiaojian Zhu ; Shanghai Marine Diesel Engine Research Institute, 3111 Huaning, Minhang, Shanghai 201108, China
Rentong Zheng ; College of Energy & Power Engineering, Jiangsu University of Science and Technology, Zhenjiang 212000, China
Caiyue Song ; College of Energy & Power Engineering, Jiangsu University of Science and Technology, Zhenjiang 212000, China
Zhenrong Liu ; College of Energy & Power Engineering, Jiangsu University of Science and Technology, Zhenjiang 212000, China

* Dopisni autor.


Puni tekst: engleski pdf 2.317 Kb

str. 1-20

preuzimanja: 60

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Sažetak

To attain high-performance ejector configurations, an ejection characteristic testing system was established initially to validate the reliability of the Realizable k-ε turbulent model. Subsequently, optimization investigations were conducted on lobed nozzle ejectors with various structural parameters. The effects of four key structural parameters, including lobed nozzle expansion angle α, lobed nozzle width d, number of lobes in the nozzle n, and height of the square-to-circle section h, were systematically studied. Furthermore, the CRITIC method was employed for multi-objective evaluation to identify the optimal design configuration for the casing ejector. The research findings revealed that among the structural parameters, the lobed nozzle expansion angle α exerted the greatest influence on the ejection coefficient and pressure loss coefficient. The weights of the evaluation criteria were determined by the CRITIC method as follows: ejection coefficient (49.38%) < pressure loss coefficient (50.62%). The optimal design configuration determined by the CRITIC method included α = 45°, d = 150 mm, n = 14, and h = 600 mm. The resulting enclosure design ensures smooth airflow within the system, preventing the backflow of high-temperature mainstream fluid and heating the enclosure. It also maintains a temperature distribution in the typical cross-section that meets specified requirements. Additionally, it facilitates improved mixing of mainstream and secondary fluid and reduces exhaust gas temperature.

Ključne riječi

Marine gas turbine; lobed nozzle ejector; ejecting cooling performance; orthogonal test; CRITIC method

Hrčak ID:

319373

URI

https://hrcak.srce.hr/319373

Datum izdavanja:

1.7.2024.

Posjeta: 192 *