References
- C. Cheng, D. Lu, Q. Su, Y. Huang, and G. Zhang, “Experimental study on flow rate distortion of natural circulation reduced-height scaling”, Nuclear Engineering and Design, vol. 402, pp. 112-122, 2023.
- S. Zhao, Q. Liu, M. Wilkinson, G. Wilson, and Z. Wang, “A reduced radiator model for simplification of onan transformer cfd simulation,” IEEE Transactions on Power Delivery, vol. 37, no. 5, pp. 4007–4018, 2022.
- S. K. Rai, P. Kumar, and V. Panwar, “Numerical investigation of steady state characteristics and stability of supercritical water natural circulation loop of a heater and cooler arrangements,” Nuclear Engineering and Technology, vol. 53, no. 11, pp. 3597–3611, 2021.
- P. Vijayan, M. Sharma, and D. Saha, “Steady state and stability characteristics of single-phase natural circulation in a rectangular loop with different heater and cooler orientations,” Experimental Thermal and Fluid Science, vol. 31, no. 8, pp. 925–945, 2007.
- Y. Zvirin, “A review of natural circulation loops in pressurized water reactors and other systems,” Nucl. Eng. Des, vol. 67, no. 2, pp. 203–225, 1981.
- Y. Zvirin, Experimental and Analytical Investigation of a PWR Natural Circulation Loop. Electric Power Research Institute, 1981.
- P. Ehrhard and U. Müller, “Dynamical behavior of natural convection in a single-phase loop,” Journal of Fluid Mechanics, vol. 217, pp. 487–518, 1990.
- Y. Fan, Y. Zhao, J. F. Torres, F. Xu, C. Lei, Y. Li, and J. Carmeliet, “Natural convection over vertical and horizontal heated flat surfaces: A review of recent progress focusing on underpinnings and implications for heat transfer and environmental applications,” Physics of Fluids, vol. 33, no. 10, pp. 101301, 2021.
- A. Dass and S. Gedupudi, “1-D semi-analytical modeling and parametric study of a single phase rectangular coupled natural circulation loop,” Chemical Engineering Science, vol. 207, pp. 105–129, 2019.
- B. Knížat, M. Vach, M. Mlkvik, P. Mlynár, F. Világi, R. Olšiak, and F. Urban, “Numerical and experimental study of a large-scale natural circulation helium loop,” Applied Sciences, vol. 13, 2023.
- P. Bokes and G. Bulatović, “Quasi-one-dimensional approach to heat transfer: general formulation and its application to transformer windings,” Applied Thermal Engineering, vol. 248, 2023.
- P. Bokes, “Average temperature of oil-filled transformer windings with partial cooling ducts,” Journal of Electrical Engineering, vol. 72, pp. 35–39, 2021.
- M. Z. Diešková, S. Kotorová, G. Bulatović, and P. Bokes, “Simple model for heat transfer in magnetic nanofluid-enhanced oil-filled transformers,” AIP Conf. Proc, vol. 3251, 2024.
- G. Bulatović and P. Bokes, “FEM verification of natural convection loop model,” to be published in IOP Publishing.
- Ansys Fluent 12.0 User’s Guide, 12th ed. Ansys, 2022.
- H. K. Versteeg and W. Malalasekera, An Introduction to Computational Fluid Dynamics, the finite volume method, 2nd ed. Pearson, 2007.
- Natural Convection Course. Ansys Innovation Space, 2020. [Online]. Available: https://innovationspace.ansys.com/product/natural-convection
- U. Madanan and R. Goldstein, “Experimental investigation on very-high Rayleigh-number thermal convection in tilted rectangular enclosures”, International Journal of Heat and Mass Transfer, vol. 139, pp. 121–129, 2019.
- E. Guazzelli, J. F. Morris, and S. Pic, Basic concepts in viscous flow. Cambridge University Press, 2011.
- S. Mukherjee and P. Mondal, “An Analytical Approach to the Effect of Viscous Dissipation on Shear-Driven Flow between two parallel plates with Constant Heat Flux Boundary Conditions”, International Journal of Engineering, vol. 26, pp. 533-542, 2013.