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Journals >NUCLEAR TECHNIQUES >Volume 46 >Issue 10 >Page 100606 > Article

NUCLEAR TECHNIQUES
Vol. 46, Issue 10, 100606 (2023)

Design and optimization analysis of a new double-layered tube-type main heat exchanger for lead-bismuth reactors

Junkang YANG¹, Kai WANG¹, Pengcheng ZHAO^1、*, and Guimei WANG²

Author Affiliations

¹School of Nuclear Science and Technology, University of South China, Hengyang 421001, China

²China Nuclear Industry Huawei Engineering Design and Research Co., Ltd., Nanjing 210019, China

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DOI: 10.11889/j.0253-3219.2023.hjs.46.100606 Cite this Article

Junkang YANG, Kai WANG, Pengcheng ZHAO, Guimei WANG. Design and optimization analysis of a new double-layered tube-type main heat exchanger for lead-bismuth reactors[J]. NUCLEAR TECHNIQUES, 2023, 46(10): 100606 Copy Citation Text

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References

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[4] WANG Guimei. Thermal-hydraulic optimal design and study of primary heat exchanger for lead alloy cooled natural circulation reactor[D](2014).

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[6] Liu S Y, Jin M, Lyu K F et al. Flow and heat transfer behaviors for double-walled-straight-tube heat exchanger of HLM loop[J]. Annals of Nuclear Energy, 120, 604-610(2018).

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[8] Cheng X, Tak N. Investigation on turbulent heat transfer to lead-bismuth eutectic flows in circular tubes for nuclear applications[J]. Nuclear Engineering and Design, 236, 385-393(2006).

[9] Yun J Y, Lee K S. Influence of design parameters on the heat transfer and flow friction characteristics of the heat exchanger with slit fins[J]. International Journal of Heat and Mass Transfer, 43, 2529-2539(2000).

[10] Agency N E. Handbook on lead-bismuth eutectic alloy and lead properties, materials compatibility, thermalhydraulics and technologies[M]. OECD(2015).

[11] JU Huaiming[M]. Calculation program and data manual of thermophysical properties of heat carrier(1990).

[12] LI Cheng, Stainless Steel Branch of China Special Steel Enterprise Association[M]. Stainless steel practical manual(2003).

[13] YANG Tao, ZHAO Pengcheng, ZHAO Yanan et al. Thermophysical properties of lead-bismuth-based graphene nanofluids[J]. Nuclear Techniques, 44, 120602(2021).

[14] Wu Y, Bai Y, Song Y et al. Development strategy and conceptual design of China lead-based research reactor[J]. Annals of Nuclear Energy, 87, 511-516(2016).

[15] WANG Xiaodong. Analysis of Simulation and optimization on heat transfer in shell-and-tube heat exchanger[D](2012).

[16] ZHOU Ming, SUN Shudong[M]. Genetic algorithms: theory and applications(1999).

[17] Yang J, Oh S R, Liu W. Optimization of shell-and-tube heat exchangers using a general design approach motivated by constructal theory[J]. International Journal of Heat and Mass Transfer, 77, 1144-1154(2014).

[18] Mirzaei M, Hajabdollahi H, Fadakar H. Multi-objective optimization of shell-and-tube heat exchanger by constructal theory[J]. Applied Thermal Engineering, 125, 9-19(2017).

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Junkang YANG, Kai WANG, Pengcheng ZHAO, Guimei WANG. Design and optimization analysis of a new double-layered tube-type main heat exchanger for lead-bismuth reactors[J]. NUCLEAR TECHNIQUES, 2023, 46(10): 100606

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