[1] ZHANG Guangrong, DAI Qingzhong. Development and study of axial pumps in China[J]. Dongfang Electric Review, 18, 4-9(2004).

[2] LI Jinghan, HU Yonghai, RUAN Pengcheng et al. Design and numerical analysis of the counter-rotating axial flow pump[J]. Fluid Machinery, 49, 37-42(2021).

[3] WANG Kailin, LI Liangxing, ZHANG Shuanglei et al. Design of axial lead-bismuth pump and its hydraulic performance analysis[C], 298-309(2019).

[4] ZHANG Shuanglei, LI Liangxing, SONG Liming. Analysis and optimization of flow field in an axial flow lead-bismuth pump[J]. Nuclear Power Engineering, 43, 158-164(2022).

[5] HUANG Jiayun, XU Yancheng. Study on the flow accelerated corrosion design strategy for the conventional island pipeline in nuclear power plant[J]. China Nuclear Power, 15, 193-199(2022).

[6] Zhang Y C, Kang C, Zhu Y et al. Investigation on the performance and flow characteristics of a liquid lead-bismuth pump[J]. Journal of Mechanical Science and Technology, 35, 2939-2947(2021).

[7] Wang K L, Li L X, Wang Y B et al. Design and hydraulic performance studies on an axiallead-bismuth pump forGEN-IV reactors[J]. International Journal of Energy Research, 45, 1-11836(2021).

[8] WU Shaojie, GAO Hongming, ZHANG Zongyu. Numerical simulation of erosion hole formation process in molten metal filling welding based on Fluent[J]. Transactions of the China Welding Institution, 37, 119-122(2016).

[9] FANG Yuchao, YANG Ziyou, HE Jingshan. Law of liquid metal scouring effect in electron beam spot welding molten pool[J]. Transactions of the China Welding Institution, 40, 137-142(2019).

[10] PENG Pai, GUO Tengjiao, WANG Yanyu et al. Development and innovative design of rotating corrosion experimental apparatus for liquid metals[J]. Modern Industrial Economy and Informationization, 12, 73-74(2022).

[11] DING Xiangbin, LUO Meng, LU Guangyao et al. Effect of different surface treatments on corrosion resistance of 316L steel weld to liquid lead and bismuth[J]. Welding & Joining, 21-25(2019).

[12] Kondo M, Takahashi M, Sawada N et al. Corrosion of steels in lead-bismuth flow[J]. Journal of Nuclear Science and Technology, 43, 107-116(2006).

[13] WANG Jun, LIU Chaonan, LIANG Chaofei et al. Formation and kinetics of aluminide coating on 316L stainless steel by pack cementation process[J]. Nuclear Techniques, 46, 030606(2023).

[14] Zhu Q A, He N, Zhang Y C et al. Effect of current density on micro-arc oxidation of Q235 steel and corrosion resistance in liquid Pb-Bi[J]. Materials and Corrosion, 70, 1171-1178(2019).

[15] Kurata Y, Sato H, Yokota H et al. Applicability of Al-powder-alloy coating to corrosion barriers of 316SS in liquid lead-bismuth eutectic[J]. Materials Transactions, 52, 1033-1040(2011).

[16] Chen Y, Qiu C J, Hu L B et al. The corrosion behavior of multiphase ceramic protective coatings on China low activation martensitic steel surface in flowing liquid lead-bismuth eutectic[J]. Steel Research International, 88, 1600413(2017).

[17] WANG Kailin, LI Liangxing, ZHANG Shuanglei et al. Design and hydraulic performance analysis of axial lead-bismuth pump[J]. Journal of Xi'an Jiaotong University, 54, 166-174(2020).

[18] ZHANG Fengyu[M]. Hydromechanics(2013).

[19] WANG Fujun[M]. Analysis method of flow in pumps & pumping stations(2020).

[20] Duan L, Wu X L, Ji Z L et al. The flow pattern and entropy generation in an axial inlet cyclone with reflux cone and gaps in the vortex finder[J]. Powder Technology, 303, 192-202(2016).

[21] Chang H, Shi W D, Li W et al. Energy loss analysis of novel self-priming pump based on the entropy production theory[J]. Journal of Thermal Science, 28, 306-318(2019).

[22] Pei J, Meng F, Li Y J et al. Effects of distance between impeller and guide vane on losses in a low head pump by entropy production analysis[J]. Advances in Mechanical Engineering, 8, 168781401667956(2016).