The objective of the current work is to shed light on studying the air flow features of the air path which is part of the passive containment cooling system (PCS) in a pressurized water reactor design. A wind tunnel test using a 1:100 scaled model is established to study the characteristic called “wind-neutrality” of the air flow in the air path, which indicates that the environmental wind should not be beneficial or detrimental to the air flow for containment cooling. Test results show that the pressure distribution in the air path is uniform, and wind speeds, wind angles, and surroundings have little effect on air flow uniformity. These investigations show that it is possible to understand air flows in the air path of PCS with a scale wind tunnel test.
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July 2019
Research-Article
Large Scale Pressurized Water Reactor Passive Containment Cooling System Wind Tunnel Test
Huang Jingyu,
Huang Jingyu
Department of Nuclear Process Systems,
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: huangjingyu@snerdi.com.cn
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: huangjingyu@snerdi.com.cn
1Corresponding author.
Search for other works by this author on:
Pan Xinxin,
Pan Xinxin
Department of Nuclear Process Systems,
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: panxinxin@snerdi.com.cn
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: panxinxin@snerdi.com.cn
Search for other works by this author on:
Song Chunjing
Song Chunjing
Department of Nuclear Process Systems,
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: songcj@snerdi.com.cn
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: songcj@snerdi.com.cn
Search for other works by this author on:
Huang Jingyu
Department of Nuclear Process Systems,
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: huangjingyu@snerdi.com.cn
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: huangjingyu@snerdi.com.cn
Pan Xinxin
Department of Nuclear Process Systems,
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: panxinxin@snerdi.com.cn
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: panxinxin@snerdi.com.cn
Song Chunjing
Department of Nuclear Process Systems,
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: songcj@snerdi.com.cn
Shanghai Nuclear Engineering Research and
Design Institute,
No. 29 Hong Cao Road,
Shanghai 200233, China
e-mail: songcj@snerdi.com.cn
1Corresponding author.
Manuscript received October 27, 2017; final manuscript received January 6, 2019; published online May 3, 2019. Assoc. Editor: Yasuo Koizumi.
ASME J of Nuclear Rad Sci. Jul 2019, 5(3): 031701 (6 pages)
Published Online: May 3, 2019
Article history
Received:
October 27, 2017
Revised:
January 6, 2019
Citation
Jingyu, H., Xinxin, P., and Chunjing, S. (May 3, 2019). "Large Scale Pressurized Water Reactor Passive Containment Cooling System Wind Tunnel Test." ASME. ASME J of Nuclear Rad Sci. July 2019; 5(3): 031701. https://doi.org/10.1115/1.4042495
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