Open Access
Issue
JNWPU
Volume 42, Number 6, December 2024
Page(s) 1089 - 1098
DOI https://doi.org/10.1051/jnwpu/20244261089
Published online 03 February 2025
  1. POLLOK A, CASELLA F. Comparison of control strategies for aircraft bleed-air systems[J]. IFAC Papers Online, 2017, 50(1): 14194–14199. [Article] [CrossRef] [Google Scholar]
  2. MERZVINSKAS M, BRINGHENTI C, TOMITA J T, et al. Air conditioning systems for aeronautical applications: a review[J]. The Aeronautical Journal, 2020, 124(1274): 499–532. [Article] [CrossRef] [Google Scholar]
  3. WANG Limin, HUANG Heyuan, MI Baigang, et al. Aerodynamic characteristics analysis of quadrangle inlet and exhaust grille for embedded ventilation cooling system of aircraft[J]. Journal of Northwestern Polytechnical University, 2021, 39(6): 1179–1187. [Article] (in Chinese) [NASA ADS] [CrossRef] [EDP Sciences] [Google Scholar]
  4. HUANG Xiaodan. Study on the measurement technology of temperature field at the outlet of the precooler in the bleed air system of civil aircraft[J]. Journal of Physics: Conference Series, 2021, 2066(1): 012114. [Article] [CrossRef] [Google Scholar]
  5. WEI H, DONG W, YANG X, et al. Experimental studies on the frosting and defrosting performance of compact heat exchanger under moderate humidity condition[J]. Energy Reports, 2022, 8: 1321–1338. [Article] [CrossRef] [Google Scholar]
  6. ZHAO Binbin, LI Xianping, LI Jie, et al. Influence of geometric parameters of leading edge horn-ice on stall characteristics of airfoil[J]. Journal of Northwestern Polytechnical University, 2023, 41(1): 39–46. [Article]

    ZHAO Binbin, LI Xianping, LI Jie, et al. Influence of geometric parameters of leading edge horn-ice on stall characteristics of airfoil[J]. Journal of Northwestern Polytechnical University, 2023, 41(1): 39-46 (in Chinese)

    [CrossRef] [EDP Sciences] [Google Scholar]
  7. PANG L, LI P, CAO X, et al. Experimental study of the changes in thermal expectation during simulated flights in a civil aircraft cabin mockup[J]. Indoor and Built Environment, 2020, 29(9): 1277–1288. [Article] [CrossRef] [Google Scholar]
  8. YANG Jianzhong, WANG Zhenbin, CHEN Xiyuan, et al. Experimental investigation on temperature disturbance in aircraft cabin[J]. Science Technology and Engineerings, 2017, 17(31): 364–368. [Article] (in Chinese) [Google Scholar]
  9. ZHOU Yue, ZHANG Helin, CHEN Dingbin, et al. Simulation study on four-wheel booster refrigeration system[J]. CIESC Journal, 2020, 71(suppl 1): 341–345 (in Chinese) [Google Scholar]
  10. ZHANG M, ZHANG W, CHEN X, et al. Modeling and simulation of temperature control system in plant factory using energy balance[J]. International Journal of Agricultural and Biological Engineering, 2021, 14(3): 66–75. [Article] [Google Scholar]
  11. QI Mei, WANG Lifu, ZHAO Jianlong, et al. Numerical simulation of external flow field self-excited oscillating pulsed cavitation jet of dual chamber nozzle[J]. Mechanical Science and Technology for Aerospace Engineering, 2019, 38(4): 515–521 (in Chinese) [Google Scholar]
  12. CHEN Z Y, MENG Y, WANG R, et al. Systematic fuzzy navier-stokes equations for aerospace vehicles[J]. Aircraft Engineering and Aerospace Technology, 2022, 94(3): 351–359. [Article] [CrossRef] [Google Scholar]
  13. TU Y, LIN G P. Dynamic simulation of aircraft environmental control system based on flowmaster[J]. Journal of Aircraft, 2011, 48(6): 2031–2041. [Article] [CrossRef] [Google Scholar]
  14. CHEN L J, ZENG W L, XU Z F, et al. A novel anomaly detection method for aircraft trajectory in terminal airspace[C]//20th COTA International Conference of Transportation Professionals, 2020: 3181–3193 [Google Scholar]
  15. JENNIONS I, ALI F, MIGUEZ M E, et al. Simulation of an aircraft environmental control system[J]. Applied Thermal Engineering, 2020, 172: 114925. [Article] [CrossRef] [Google Scholar]
  16. MBOREHA C A, TYTELMAN X, NWAOKOCHA C, et al. Numerical simulations of the flow fields and temperature distribution in a section of a Boeing 767-300 aircraft cabin[J]. Materials Today: Proceedings, 2021, 47: 4098–4106. [Article] [CrossRef] [Google Scholar]
  17. SHI Lulu. Research of multi-stage temperature control system in large-sized aircraft cabin zone[J]. CIESC Journal, 2020, 71(suppl 1): 322–327 (in Chinese) [Google Scholar]
  18. REN Mingbo, WANG Juan, LI Rongjun, et al. Control law design for temperature control system of large-scale aircraft cabin[J]. Acta Aeronautica et Astronautica Sinica, 2017, 38(suppl): 15–23 (in Chinese) [Google Scholar]
  19. ZHANG Guoyuan, YU Zongling, ZHENG Quanyi, et al. Modeling and control optimization of air circulation temperature control system based on AMESim[J]. Automation Application, 2020, 5: 7–9 (in Chinese) [Google Scholar]

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