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On-line Access: 2019-03-04

Received: 2018-12-23

Revision Accepted: 2019-01-04

Crosschecked: 2019-01-08

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Citations:  Bibtex RefMan EndNote GB/T7714

 ORCID:

Jin-yuan Qian

https://orcid.org/0000-0002-5438-0833

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Journal of Zhejiang University SCIENCE A 2019 Vol.20 No.3 P.229-232

http://doi.org/10.1631/jzus.A19LR001


Research laboratory for Smart Control Valves at Zhejiang University


Author(s):  Jin-yuan Qian, Bao-qing Liu, Zhi-xin Zhang, Sun-ting Yan, Li-long Chen, Zhi-jiang Jin

Affiliation(s):  Institute of Process Equipment, College of Energy Engineering, Zhejiang University, Hangzhou 310027, China; more

Corresponding email(s):   jzj@zju.edu.cn

Key Words:  Control valve, Intelligent control, Flow control, Flow characteristic


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Jin-yuan Qian, Bao-qing Liu, Zhi-xin Zhang, Sun-ting Yan, Li-long Chen, Zhi-jiang Jin. Research laboratory for Smart Control Valves at Zhejiang University[J]. Journal of Zhejiang University Science A, 2019, 20(3): 229-232.

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author="Jin-yuan Qian, Bao-qing Liu, Zhi-xin Zhang, Sun-ting Yan, Li-long Chen, Zhi-jiang Jin",
journal="Journal of Zhejiang University Science A",
volume="20",
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pages="229-232",
year="2019",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.A19LR001"
}

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Abstract: 
The Research Laboratory for Smart control valves at Zhejiang University, China has, since its foundation in 2008, focused on developing novel valves for smart fluid control. It is based on the chemical process equipment subject area, which is the earliest national key discipline in this field, and was recognized as a Zhejiang Key Innovation Team in 2011. The laboratory also gets full support from the State Key Laboratory of Fluid Power and Mechatronic Systems, and the Engineering Research Center for High Pressure Process Equipment and Safety (Ministry of Education), Zhejiang University. The aim of the laboratory is to establish a cooperation platform between academics and industries, so as to improve the design and manufacturing technologies of valves. There are more than 1000 valve companies in Zhejiang Province and 6000 valve companies in China in total.

浙江大学特种控制阀研究室

目的:目前大中型控制阀大多存在结构复杂、驱动能耗大、反应时间慢、振动噪声大、稳定性差和使用寿命短等缺点. 基于此,浙江大学相关研究人员组建了特种控制阀研究室,致力于提升控制阀的整体性能和设计水平.
研究点:本研究室的主要方向为:1. 控制阀内部流动特性分析和新结构设计开发; 2. 流体目标流量、温度、压力和振动噪声等的智能控制研究; 3. 适应纳米流体、压缩氢气和高温高压过热蒸汽等新流体介质的智慧控制阀研究.
展望:特种控制阀作为超超临界火电机组、核电、石化高压反应和百万吨级乙烯工程等国家重大重点工程的关键零部件之一,将会在内流动机理、新结构开发、新流体介质和智能控制等研究领域得到广泛关注和长足发展.

关键词:控制阀; 智能控制; 流动控制; 流动特性

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

Reference

[1]Chen FQ, Zhang M, Qian JY, et al., 2017. Thermo-mechanical stress and fatigue damage analysis on multi-stage high pressure reducing valve. Annals of Nuclear Energy, 110: 753-767.

[2]Hou CW, Qian JY, Chen FQ, et al., 2018. Parametric analysis on throttling components of multi-stage high pressure reducing valve. Applied Thermal Engineering, 128:1238-1248.

[3]Jin ZJ, Gao ZX, Qian JY, et al., 2018a. A parametric study of hydrodynamic cavitation inside globe valves. ASME Journal of Fluids Engineering, 140(3):031208.

[4]Jin ZJ, Gao ZX, Chen MR, et al., 2018b. Parametric study on Tesla valve with reverse flow for hydrogen decompression. International Journal of Hydrogen Energy, 43(18):8888-8896.

[5]Qian JY, Wei L, Jin ZJ, et al., 2014. CFD analysis on the dynamic flow characteristics of the pilot-control globe valve. Energy Conversion and Management, 87:220-226.

[6]Qian JY, Zhang M, Lei LN, et al., 2016a. Mach number analysis on multi-stage perforated plates in high pressure reducing valve. Energy Conversion and Management, 119:81-90.

[7]Qian JY, Liu BZ, Jin ZJ, et al., 2016b. Numerical analysis of flow and cavitation characteristics in a pilot-control globe valve with different valve core displacements. Journal of Zhejiang University-SCIENCE A (Applied Physics & Engineering), 17(1):54-64.

[8]Qian JY, Wei L, Zhang M, et al., 2017. Flow rate analysis of compressible superheated steam through pressure reducing valves. Energy, 135:650-658.

[9]Qian JY, Gao ZX, Liu BZ, et al., 2018. Parametric study on fluid dynamics of pilot-control angle globe valve. ASME Journal of Fluids Engineering, 140(11):111103.

[10]Qian JY, Chen MR, Liu XL, et al., 2019. A numerical investigation of the flow of nanofluids through a micro Tesla valve. Journal of Zhejiang University-SCIENCE A (Applied Physics & Engineering), 20(1):50-60.

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