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[1]王 越,等.旋转式能量回收装置内部泄漏规律的解析计算[J].天津大学学报(自然科学与工程技术版),2020,53(03):291-300.[doi:10.11784/tdxbz201901075]
 Wang Yue,,et al.Analytical Calculation of the Internal Leakage Principles in Rotary Energy Recovery Devices[J].Journal of Tianjin University(Science and Technology),2020,53(03):291-300.[doi:10.11784/tdxbz201901075]
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旋转式能量回收装置内部泄漏规律的解析计算

参考文献/References:

[1] Gleick P H,Miller R W. The world’s water 2000—2001:The biennial report on freshwater resources[J]. Electronic Green Journal,2002,1(16):210-212.

[2] 王 越,高建朋,任亚斐. 自增压式能量回收装置的开发与效能分析[J]. 天津大学学报:自然科学与工程技术版,2016,49(8):797-801.

Wang Yue,Gao Jianpeng,Ren Yafei. The develop-ment and performance analysis of self-boost energy recovery device[J]. Journal of Tianjin University:Science and Technology,2016,49(8):797-801(in Chinese).

[3] Mambrettia S,Orsi E,Gagliardi S,et al. Behaviour of energy recovery devices in unsteady flow conditions and application in the modelling of the Hamma desali-nation plant[J]. Desalination,2009,238(1/2/3):233-245.

[4] Jiang A,Wang J,Biegler L T,et al. Operational cost optimization of a full-scale SWRO system under multi-parameter variable conditions[J]. Desalination,2015,355:124-140.

[5] Nafey A S,Sharaf M A,García-Rodríguez L. Ther-mo-economic analysis of a combined solar organic Rankine cycle-reverse osmosis desalination process with different energy recovery configurations[J]. De-salination,2010,261:138-147.

[6] Yue W,Ren Y,Jie Z,et al. Functionality test of an innovative single-cylinder energy recovery device for SWRO desalination system[J]. Desalination,2016,388:22-28.

[7] Wang Yue,Duan Yawei,Zhou Jie,et al. Introducing pre-pressurization/depressurization grooves to diminish flow fluctuations of a rotary energy recovery device: Numerical simulation and validating experiment[J]. Desalination,2017,413:1-9.

[8] Kim Y,Kang M G,Lee S,et al. Reduction of energy consumption in seawater reverse osmosis desalination pilot plant by using energy recovery devices[J]. Desal-ination and Water Treatment,2013,51(4/5/6):766-771.

[9] Stover R L. Seawater reverse osmosis with isobaric energy recovery devices[J]. Desalination,2007,203(1/2/3):168-175.

[10] 杨勇君,王 越,张金鑫,等. 旋转式能量回收装置混合过程优化研究[J]. 化学工业与工程,2012,29(6):42-49.

Yang Yongjun,Wang Yue,Zhang Jinxin,et al. Simu-lation and optimization on the mixing performance of rotary energy recovery device[J]. Chemical Industry and Engineering,2012,29(6):42-49(in Chinese).

[11] Qi Bingwei,Wang Yue,Wang Zhaocheng,et al. Theoretical investigation on internal leakage and its ef-fect on the efficiency of fluid switcher-energy recovery device for reverse osmosis desalting plant[J]. Chinese Journal of Chemical Engineering,2013,21(11):1216-1223.

[12] Liu N,Liu Z,Li Y,et al. Studies on leakage charac-teristics and efficiency of a fully-rotary valve energy recovery device by CFD simulation[J]. Desalination,2017,415:40-48.

[13] 宋鹏云,陈匡民,董宗玉,等. 螺旋槽上游泵送机械

密封性能的解析计算[J]. 润滑与密封,1999,4(4):5-7.

Song Pengyun,Chen Kuangmin,Dong Zongyu,et al. A theoretical analysis of spiral groove upstream pumping mechanical seal[J]. Lubrication Engineering,1999,4(4):5-7(in Chinese).

[14] Velescu C,Popa N C. Laminar motion of the incom-pressible fluids in self-acting thrust bearings with spiral grooves[J]. ScientificWorldJournal,2014,14:478401.

[15] Wu L,Wang Y,Xu E,et al. Employing groove-textured surface to improve operational performance of rotary energy recovery device in membrane desalina-tion system[J]. Desalination,2015,369:91-96.

[16] Blasiak S,Zahorulko A V. A parametric and dynamic analysis of non-contacting gas face seals with modified surfaces[J]. Tribology International,2016,94:126-137.

[17] 赵克强. 两平行旋转圆盘缝隙内的黏性流分析[J]. 兵工学报,1990(2):39-44.

Zhao Keqiang. An analysis of viscous fluid flow in clearance of two parallel rotating discs[J]. Acta Arma-mentarii,1990(2):39-44(in Chinese).


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备注/Memo

通信作者:王 越,tdwy75@tju.edu.cn.

更新日期/Last Update: 2020-03-04