Sage Journals: Discover world-class research

Abstract

The idling characteristic of the reactor coolant pump is one of the important indicators for the safe operation of the nuclear power system. The idling transition process of the reactor coolant pump under the power failure accident condition belongs to the transient flow process. During most of the time of the idling transition process, the parameters of flow, rotating speed, and head are all nonlinear changes, and the study of the idling change law is extremely difficult. This paper introduces the nonlinear inertia transient phase of the reactor coolant pump and the principle of wavelet analysis. Based on the experimental results of the idling transition process, the polynomial fitting of the flow curve and the rotating speed curve is fitted, and the idling transient equation is established which is a boundary condition for computational fluid dynamics simulation of the nonlinear idling transient stage of the reactor coolant pump with different types of guide vanes. The signal fluctuation of pressure pulsation time-domain change at the volute outlet in different sub-bands is analyzed by means of a fast, discrete wavelet transform, and the effects of different vane optimizations in different idling stages are analyzed. It was found that the pressure fluctuation amplitude of each sub-frequency range of pump outlet in the model of the shunt guide vane is significantly smaller than that of the normal guide vane.

Keywords

Reactor coolant pump shunt guide vane idling transition idling characteristic wavelet transform pressure pulsation

Get full access to this article

View all access options for this article.

References

Bencik V, Bajs, T and Debrecin N (2005) RELAP5/MOD3.3 analysis of the Reactor Coolant Pump Trip event at NPP Krsko for different transient scenarios. Available at: https://inis.iaea.org/search/search.aspx?orig_q=RN:37104720 (accessed February 2019).

Dien

Diep

(2017) Verification of VVER-1200 NPP simulator in normal operation and reactor coolant pump coast-down transient. World Journal of Engineering and Technology 5(3): 507–519.

Hanhong

(2016) Third-Generation Nuclear Power Technology AP1000, 2nd edition. Beijing: China Electric Power Press [In Chinese.].

Jin

Wang

Chang

, et al.(2013) Pressure fluctuation of interior flow in mixed-flow pump. Transactions of the Chinese Society for Agricultural Machinery 44(3): 64–68.

Kim

Lee

K-Y

Kim

J-H

, et al.(2015) High performance hydraulic design techniques of mixed-flow pump impeller and diffuser. Journal of Mechanical Science and Technology 29(1): 227–240.

Zhu

, et al.(2018) Research on the structure design of the LBE reactor coolant pump in the lead base heap. Nuclear Engineering and Technology 51(2): 546–555.

Zhu

Wang

, et al.(2017) Study on gas–liquid two-phase all-characteristics of CAP1400 nuclear main pump. Nuclear Engineering and Design 319: 140–148.

Zhu

Wang

, et al.(2019) Study on the complete rotational characteristic of coolant pump in the gas–liquid two-phase operating condition. Annals of Nuclear Energy 123: 180–189.

Rui-Lan

Tie-Jun

Ling

(2004) Performance analysis of threshold denoising via different kinds of mother wavelets. Spectroscopy and Spectral Analysis 24(7): 826–829.

10.

Shao

Zhao

Liang

, et al.(2018) Numerical investigation on a separated structure shell-and-tube waste heat boiler based on experiment. International Journal of Heat and Mass Transfer 117: 1006–1018.

11.

Wang

Chen

Qiu

, et al.(2018) Numerical and experimental study on the pressure fluctuation, vibration, and noise of multistage pump with radial diffuser. Journal of the Brazilian Society of Mechanical Sciences and Engineering 40: 481.

12.

Wang C, He X, Shi W, et al. (2019a) Numerical study on pressure fluctuation of a multistage centrifugal pump based on whole flow field. AIP Advances 9(3): 035118. Available at: https://aip.scitation.org/doi/10.1063/1.5049196 (accessed 02 April 2019).

13.

Wang C, He X, Zhang D, et al. (2019b) Numerical and experimental study of the self?priming process of a multistage self-priming centrifugal pump. International Journal of Energy Research. Epub ahead of print 30 April 2019. https://doi.org/10.1002/er.4497.

14.

Wang

Shi

Wang

, et al.(2017) Optimal design of multistage centrifugal pump based on the combined energy loss model and computational fluid dynamics. Applied Energy 187: 10–26.

15.

Xingmin

Haibo

Wei

(2016) Harmonic detection of power system based on single-band reconstruction wavelet transform. Technology Innovation and Application 21: 198–199.

16.

Xiuhong

Jiping

Shengfei

(2003) Wavelet analysis and application. Computer Technology and Development 13(8): 93–94.

17.

Yanjun

Wenhong

Jun

, et al.(2016) Comparison of past and present the Chernobyl and the Fukushima nuclear accident and elicit thinking. Chinese Journal of Radiological Health 25(4): 459–462.

18.

Yiming X (2011) Numerical simulation of interior flow field of reactor coolant pump under station blackout accident. MS Thesis. Dalian University of Technology, Peoples’ Republic of China.

19.

Yuchuan

Lei

Shuliang

, et al.(2014) Characteristics of transient flow and pressure fluctuation in impeller for centrifugal pump. Journal of Mechanical Engineering 50(10): 163–169.

20.

Zhou

Wang

Yao

(2015a) Impeller–volute interaction in tongue region in centrifugal pump under rotating stall condition. Transactions of the Chinese Society of Agricultural Engineering 31(7): 85–90.

21.

Zhou

Wang

Yao

(2015b) Investigation of pressure fluctuation in centrifugal pump impeller under rotating stall conditions. Transactions of the Chinese Society for Agricultural Machinery 46(10): 56–61.

22.

Zhu

Zhang

Yao

(2010) Shape optimization of the diffuser blade of an axial blood pump by computational fluid dynamics. Artificial Organs 34(3): 185–192.

23.

Zhu R, Long Y, Fu Q, et al. (2014) Pressure fluctuation characteristics of nuclear main pump under low flow conditions. Journal of Vibration and Shock 33(17): 143–149.

Study on pressure pulsation characteristics of reactor coolant pump during the idling transition process

Abstract

Keywords

Get full access to this article

References