Research on Development Status and Trend of Aeroengine in China
DOI:
https://doi.org/10.54097/ajst.v3i2.2169Keywords:
Aviation, Engine, Status quo, Trend.Abstract
The key manufacturing technology of aero-engine is an important index for the future development of aero-engine industry in China. The traditional manufacturing process and production mode can't meet the requirements of high precision, high quality, high efficiency and high reliability of aero-engine. The following three-axis, four-axis, five-axis digital processing is an important foundation for the future development of China aero-engine manufacturing industry. Aero-engine is the most important component of aircraft power supply system, and has experienced the development process of DC engine, brush synchronous engine and three-stage brushless synchronous engine. On the basis of analyzing the performance and characteristics of various engines, this paper analyzes the development direction of new civil and military aero-engines.
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Feng Z, Fu Y, Wang J, et al. Measurement Model and Dynamic Performance Analysis of Inlet Electrostatic Sensor on Aircraft Engine[J]. JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2021, 30(zk):202-209.
Xuyun, FU, Hui, et al. Aircraft engine fault detection based on grouped convolutional denoising autoencoders[J]. Chinese Journal of Aeronautics, 2019( 12):7-12.
Jing H, Chen L, Kuang Y. Testing verification and optimization study on consumption of fire extinguishing agent for aircraft engine nacelle[J]. Fire Safety Science, 2016(7):22.
Yixuan, WANG, Yan, et al. Efficiency optimized fuel supply strategy of aircraft engine based on air-fuel ratio control[J]. Chinese Journal of Aeronautics, 2019( 9):12-16.
Wang Y, Shi Y, Cai M, et al. Efficiency optimized fuel supply strategy of aircraft engine based on air-fuel ratio control[J]. Chinese Journal of Aeronautics, 2019, 32(02):279-288.
Pang S, Jafari S, Nikolaidis T, et al. A novel model-based multivariable framework for aircraft gas turbine engine limit protection control[J]. Chinese Journal of Aeronautics, 2021, 34( 12):57-72.
Akdeniz H Y. Estimation of aircraft turbofan engine exhaust emissions with environmental and economic aspects at a small-scale airport[J]. Aircraft engineering and aerospace technology, 2022(2):94.
Balaji V, Kaliappan S, Madhuvanesan D M, et al. Combustion analysis of biodiesel-powered propeller engine for least environmental concerns in aviation industry[J]. Aircraft engineering and aerospace technology, 2022(5):94.
LI Hansong, FU Shuxing, Q Zhang. Simulation and experimental investigation of inner-jet electrochemical grinding of GH4169 alloy[J]. Chinese Journal of Aeronautics, 2018, v.31;No.144(03):194-202.
Albarran M, Kreimeier M, Enders W, et al. Noise evaluation of battery powered small aircraft[J]. CEAS Aeronautical Journal, 2020, 11(1):125-135.
Bandopadhyay S, Jagdeep T, Pandey K, et al. Augmenting effectiveness of geared turbofan engines by dual stage radial blisks[J]. Aircraft engineering and aerospace technology, 2022(6):94.
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