[1] Chevary R. Tutu H K. Intermittrly and preferential transport of heat in a round jet[J]. Fluid Mech, 88, 133-160(1978).

[2] [2] Garret W D, Smith P M. Physical chemical facts affecting the thermal IR imagery of ship wakes(ADA144034)[R]. Washington DC: Naval Research Lab, 1984.

[3] Peltzer R, Garrett W, Smith P. A remote sensing study of a surface ship wake[J]. International Journal of Remote Sensing, 8, 689-704(1985).

[4] [4] Chen C J, Singh K. Development of a twoscale turbulence model prediction of buoyant shear flows[C]AIAA Thermophys Heat Transfer Conf. Heat Transfer in Turbulent Flows, 1990, 138: 53.

[5] Voropayev S I, Fernando H J S, Smirnov S A, et al. On surface signatures generated by submerged momentum sources[J]. Physics of Fluids, 19, 465(2007).

[6] Voropayev S I, Fernando H J S, Nath C. Thermal and dynamic surface signatures of the wake of a submerged sphere[J]. Journal of Visualization, 12, 285(2009).

[7] Voropayev S I, Nath C, Fernando H J S. Thermal surface signatures of ship propeller wakes in stratified waters[J]. Physics of Fluids, 24, 466-469(2012).

[8] Voropayev S I, Nath C, Fernando H J S. Surface signatures of submerged heated jet[J]. Environ Fluid Mech, 14, 1105-1121(2014).

[9] Yang Weiping, Zhang Zhilong, Li Jicheng, et al. Thermal wakes detectability of submerged objects based on scale model[J]. Infrared and Laser Engineering, 45, 0302002(2016).

[10] [10] Lai Qingzhi. Study of infrared radiative acteristics of nuclearpowered submarine’s thermal wake[D]. Harbin: Harbin Institute of Technology, 2017. (in Chinese)

[11] Zhou Zhe, Bai Zongliang, Shi Jingcheng, et al. The study on thesimulation method based on temperature interpolation technology for the buoyancy law and ocean-surface thermal characteristic of submarine wake[J]. Infrared Technology, 41, 1039-1046(2019).

[12] Zhang Jian, Yang Li, Zhang Shicheng, et al. Temperature characteristic of horizontal heated water jets in the flow[J]. Huazhong University of Science and Technology (Natural Science Edition), 39, 62-66(2011).

[13] Zhang Jian, Yang Li, Zhang Shicheng, et al. Three-dimensional numerical simulation of horizontal circle heated water jets in the flow[J]. Advances in Water Science, 22, 668-672(2011).

[14] Zhou Zhe, Bai Zongliang, Zhao Detao, et al. Structure optimization and simulation analysis of submarine discharge port based on CFD[J]. Ship Science and Technology, 42, 66-70(2020).

[15] Gao Meng, Huai Wenxin, Zeng Yuhong. Dilution characteristics of vertical multiple jets in crossflow[J]. Huazhong University of Science and Technology (Natural Science Edition), 46, 94-98(2018).

[16] [16] Zheng Yanan, Wang Guoyu, Lu Yafei, et al. Study on the flow field acteristics of multiple jets under the flat surface[C]Proceedings of the 32nd National Conference on Hydrodynamics, 2020. (in Chinese)

[17] Bae Y Y, Kim E S, Kim M. Assessment of low-Reynolds number k-ε turbulence models against highly buoyant flows[J]. International Journal of Heat and Mass Transfer, 108, 529-536(2017).