Patent
[1] Yan Changqi, Sun Zhongning, Cao Xiaxin. Needle fin tube and plain tube mixedly arranged self-supporting type heat exchanger, CN100588894B, 2010-02-10.
[2] Sun Zhongning, Yan Changqi, Cao Xiaxin. Pipe shell type heat exchanger with dedusting function, CN100588894C, 2010-06-16.
[3] Sun Zhongning, Yan Changqi, Fan Guangming, Fan Wenhui. Low-speed hot fluid flowmeter, CN101738230B, 2011-04-20.
[4] Yan Changqi, Sun Zhongning, Gu Haifeng et al. Pressure equalizing density lock, CN101572128B, 2011-09-14.
[5] FAN Guangming, Sun Zhongning, Yan Changqi et al. Multifunctional wide flow single-phase convective heat exchange test device, CN102081060B, 2012-07-11.
[6] Sun Zhongning, Yan Changqi, Sun Licheng et al. Forced-convection heat transfer experimental device for strong inner heat source containing porous medium passage, CN102081059B, 2013-02-06.
[7] Fan Guangming, Sun Zhongning, Su Jiqiang et al. Hydrogen bubble flow display technology-based boundary layer visual test device, CN102426092B, 2013-11-20.
[8] Gu Haifeng, Sun Zhongning, Zhou Xiafeng et al. Double-cylinder multi-fluidization circulating type aerosol generator, CN102658039B, 2014-03-26.
[9] Sun Zhongning, Fan Guangming, Yan Changqi et al. Passive containment cooling system and reactor system, CN102637465B, 2014-07-16.
[10] FAN Guangming, Ding Ming, Sun Zhongning et al. Experimental device for condensation heat-exchange of steam containing multi-component non-condensable gases, CN103033532B, 2014-08-20.
[11] Gu Haifeng, Sun Zhongning, Zhou Yanmin, et al. Dynamic distribution system of gaseous methyl iodine, CN102629493B, 2014-08-20.
[12] Sun Zhongning, Ding Ming, Fan Guangming et al. Condensation heat-transfer experiment device capable of realizing coupling of natural circulation and forced circulation, CN103196945B,2014-12-17.
[13] Gu Haifeng, Sun Zhongning, Zhang Nana et al. Iodine vapor sampling apparatus under high temperature and high humidity environment, CN103257059B, 2015-02-25.
[14] Gu Haifeng, Sun Zhongning, Wang Junlong, et al. Iodine vapor distributing device with on-line iodine function, CN103111211B, 2015-04-08.
[15] Ding Ming, Sun Zhongning, Gu Haifeng et al. Self-starting gas discharging device with long-term water sealing function, CN103137222B, 2015-04-08.
[16] Gu Haifeng, Sun Zhongning, Zhou Yanmin, et al. Methyl iodide gas sampling system applicable to high pressure steam pipeline environment, CN103197341B,2015-05-20.
[17] Gu Haifeng, Sun Zhongning, Zhou Yanmin, et al. Split self-suction type Venturi tube washer, CN103566683B, 2015-06-17.
[18] Sun Zhongning, Gao Li, Gu Haifeng et al. Passive containment cooling system steam discharging device, CN103474109B, 2015-10-28.
[19] Gu Haifeng, Sun Zhongning, Wang Junlong, et al. Self-suction-type Venturi water scrubber performance testing system, CN103900842B, 2016-06-29.
[20] Gu Haifeng, Sun Zhongning, Miao Zhuang et al. Long-time water seal passive steam discharge device capable of preventing cooling water loss, CN104299658B, 2016-08-24.
[21] Liu Changliang, Zhu Jingmei, Sun Zhongning et al. Aerosol metal fiber filter, CN104667663B, 2017-01-25.
[22] Gu Haifeng, Sun Zhongning, Xu Huiqiang et al. Containment filtering and discharging system capable of carrying out passive operation for a long term, CN106384607B, 2017-11-21.
[23] Zhou Yanmin, Gu Haifeng, Wang Chen et al. Containment vessel long-term pressure relief filtration system, CN106504811B, 2017-12-19.
[24] Cao Xiaxin, Cao Pengjiu, Sun Zhongning et al. Open passive heat extraction system suitable for long-term operation condition, CN106409354B, 2018-01-19.
[25] Sun Zhongning, Fan Guangming, Ding Ming et al. Containment cooling system, and containment and reactor pressure vessel joint cooling system, CN106104701B, 2018-06-08.
[26] Cao Xiaxin, Cao Pengjiu, Sun Zhongning et al. Two-phase flow device for researching enhancement of natural circulation capacity of system, CN106229017B, 2018-07-31.
[27] Gu Haifeng, Sun Zhongning, Xu Huiqiang et al. Experimental device with wide super-cooling degree for condensation heat-exchange in horizontal tube containing multi-component gas, CN106918622B, 2019-07-16.
[28] Gu Haifeng, Sun Zhongning, Zhou Yanmin, et al. Containment filtering and discharging system capable of efficiently removing organic iodine, CN108022659B, 2019-10-08.
Article
[1]F. Sun, Z. Sun, C. Yan, W. Huang, Enhancement of forced convective heat transfer and frictional characteristics in meshes inserted tubes [J]. Nuclear Power Engineering, 1995 (02): 149-153.
[2]F. Sun, X. Lv, M. Xu, Z. Sun, The investigation on performance of steam generator stationary vane separator [J]. Chinese Journal of Nuclear Science and Engineering, 1995 (03): 213-219.
[3]M. Peng, Z. Du, Z. Sun, The exergy analysis of PWR NPP [J]. Chinese Journal of Nuclear Science and Engineering, 1996 (01): 18-25.
[4]Z. Sun, W. Huang, C. Yan, F. Sun, An investigation of turbulent convection heat transfer performance in spiral spring coil inserted tubes [J]. Nuclear Power Engineering, 1996 (04): 50-56.
[5]W. Huang, G. Ou, C. Yan, Z. Sun, The fatigue tests and analysis for the spirally indented tube [J]. Power Equipment, 1997 (3): 25-28.
[6]M. Peng, Z. Wang, Z. Du, Z. Sun, Research of man-machine system design for marine NPP [J]. Nuclear Power Engineering, 1997 (03): 93-97.
[7]Z. Sun, M. Peng, Z. Du, W. Huang, Identify of mean temperature difference calculating method in heat exchanger thermodynamic calculation [J]. Nuclear Power Engineering, 1997 (04): 38-44.
[8]C. Yan, Z. Sun, W. Huang, Investigation on flooding in a complex loop [J]. Chinese Journal of Nuclear Science and Engineering, 1997 (03): 270-275.
[9]W. Huang, T. Liu, Z. Sun, C. Yan, Experimental investigation on heat transfer and pressure drop of spirally fluted tubes [J]. Journal of Harbin Engineering University, 1998 (01): 32-37.
[10]W. Huang, C. Yan, Z. Sun, Z. Du, Research on some practical problems of condenser with spirally indented tubes [J]. Journal of Harbin Engineering University, 1998 (04): 85-91.
[11] Z. Sun, Z. Du, W. Huang, C. Yan, M. Wang. Turbulent Convection Heat Transfer in Single-Start Spirally Corrugated Tubes [J]. Nuclear Power Engineering, 1998(05):35-38+77.
[12]Z. Sun,. The Transient of wall temperature in start- up process of pool boiling heat transfer on vertical plain tube and narrow Annuli [J]. Journal of Harbin Engineering University, 1999(02):89-93.
[13]Z. Sun. Mechanism of convection heat transfer on heated surface of crystal solid [J]. Journal of engineering thermophysics, 1999(03):356-359.
[14]C. Yan, Z. Sun. Analysis and research on the initial point of subcooled boiling [J]. Journal of Harbin Engineering University, 2000(01):15-19.
[15]Z. Sun, C. Yan, Z. Du, Z. Zhang. Experimental investigation of natural convective boiling heat transfer in narrow annuli [J]. Chinese Journal of Nuclear Science and Engineering, 2000(01):57-63.
[16]C. Yan, Z. Sun. The determination of the initial point of net vapor generation in flow subcooled boiling [J]. Chinese Journal of Nuclear Science and Engineering, 2000(02):130-134+168.
[17]Z. Sun, Z. Du, C. Yan, Z. Zhang. Critical heat flux during natural convective boiling in vertical and inclined narrow annuli [J]. Chinese Journal of Nuclear Science and Engineering, 2000(02):123-129.
[18]C. Yan, Z. Sun, H. Li. Research and Development of small nuclear power for deep-sea vessel [J]. Nuclear Power Engineering, 2000(04):378-380+384.
[19]Z. Sun, Z. Du, C. Yan, Z. Li. The characteristics of start-up from cold state to nucleate boiling in vertical narrow annuli [J]. Nuclear Power Engineering, 2000(04):289-293+303.
[20]Z. Li, C. Yan, Z. Sun. Experimental investigation on the single-phase heat transfer of casing pipe used for once-through steam generator [J]. Journal of Harbin Engineering University, 2000(05):32-35.
[21]C. Yan, Z. Sun. Investigation on countercurrent flow characteristics in vertical tubes [J]. Nuclear Power Engineering, 2001(01):15-18.
[22]C. Yan, D. Wang, Z. Sun. Higher education with international standards [J]. Continuing Education Research, 2001(03):20-22.
[23]Z. Sun, C. Yan, Z. Du. Experimental investigation of pool boiling heat transfer on bare tube and in narrow annuli [J]. Journal of engineering thermophysics, 2001(04):485-487.
[24]C. Yan, D. Wang, Z. Sun. How to enhance the research ability of the undergraduate students [J].Heilongjiang Researches on Higher Education, 2001(05):73-75.
[25]C. Yan, Z. Sun, L. Sun. Research on two-phase countercurrent flow in reactor hot leg at the loss of coolant accident [J]. Chinese Journal of Nuclear Science and Engineering, 2001(03):223-227.
[26]W. Huang, C. Yan, Z. Sun, W. Yu. Experimental investigation on heat transfer and pressure drop of spirally fluted titanium-tubes [J]. Nuclear Power Engineering, 2001(05):456-459.
[27]C. Yan, Z. Sun. Analysis of the characteristics of heat transfer enhancement in steam condensers [J]. Chinese Journal of Nuclear Science and Engineering, 2001(04):317-321.
[28]Z. Sun, H. Tan, C. Yan. Analytical investigation on critical heat flux of natural circulation boiling in annular with heated outer tube [J]. Nuclear Power Engineering, 2001(05):451-455.
[29]Z. Sun, C. Yan, H. Tan, J. Guo. Forced convection heat transfer in narrow annulus with bilateral heating [J]. Nuclear Power Engineering, [J]. Nuclear Power Engineering, 2002(04):33-36.
[30]L. Sun, C. Yan, Z. Sun. Experimental Investigation on Single-phase Convection Heat Transfer in Narrow Annulus [J]. Chinese Journal of Nuclear Science and Engineering, 2002(03):235-239.
[31]Z. Sun, C. Yan, W. Huang, H. Tan. Comparative experimental analysis of pool boiling heat transfer outside tube and inside narrow annulus [J]. Journal of Harbin Engineering University, 2003(02):136-140.
[32]X. Cao, Z. Sun, H. Wang. Experimental study of natural convective subcooled boiling heat transfer in a vertical annular channel[J].Applied Science and Technology, 2003(05):23-25.
[33]L. Sun, C. Yan, Z. Sun. Experimental study on forced water flow resistance in narrow annulus [J]. Nuclear Power Engineering, 2003(04):359-362.
[34]Z. Sun, C. Yan, H. Tan, L. Sun, J. Guo. Experimental Investigation on Forced Convection Heat Transfer through Narrow Annulus [J]. Nuclear Power Engineering, 2003(04):350-353.
[35]Z. Sun, X. Cao, C. Yan, H. Tan, L. Sun. Forced convection heat transfer in vertical narrow annuli [J]. Journal of engineering thermophysics, 2003(05):828-830.
[36]Z. Sun, H. Tan, C. Yan. Flow instability in vertical narrow annuli with both subcooled and saturated boiling [J]. Journal of Harbin Institute of Technology, 2003(12):1499-1502.
[37]Z. Sun, L. Sun, C. Yan, W. Huang. Experimental investigation of single-phase flow friction in narrow annuli [J]. Nuclear Power Engineering, 2004(02):123-127.
[38]L. Sun, C. Yan, Z. Sun. Frictional pressure drop characteristics of boiling water flowing through narrow annulus [J]. Journal of Harbin Engineering University, 2005(01):44-47.
[39]G. Wu, W. Huang, Z. Sun. Application of discontinuous helical baffles in shell-and-tube heat exchanger[J].Applied Science and Technology, 2005(04):45-47.
[40]G. Lu, Z. Sun, J. Wang, C. Yan. Experimental study on heat transfer characteristics of flow in a narrow annular Duct [J]. Chinese Journal of Power Engineering, 2005(02):275-279.
[41]G. Lu, J. Wang, Z. Sun. Experimental study on heat transfer characteristics with forced Convection in narrow annulus [J]. Chinese Journal of Nuclear Science and Engineering, 2005(02):159-162.
[42]W. Huang, Z. Sun, C. Yan. Investigation of condensation heat transfer of horizontal titanium circular-grooved tube [J]. Journal of Harbin Engineering University, 2006(01):61-65.
[43]G. Lu, Z. Sun, J. Wang, C. Yan. Experimental Investigation on the Single-Phase Flow Friction in Narrow Annulus [J]. Nuclear Power Engineering, 2006(03):28-31.
[44]J. Li, Z. Sun, G. Wu. Experimental investigation on heat transfer and resistance of helical baffle heat exchanger with wave-groove tubes[J].Applied Science and Technology, ,2006(03):28-31.
[45]X. Cao, C. Yan, L. Sun, Z. Sun. Analysis of pressure drop characteristics of single-phase flowing through vertical rolling pipes [J]. Journal of Harbin Engineering University, 2006(06):834-838.
[46]L. Sun, C. Yan, Z. Sun. Vapor bubble behavior in sub-cooled flow boiling in vertical annular Ducts [J]. Nuclear Power Engineering, 2006(S1):73-76.
[47]X. Cao, C. Yan, L. Sun, Z. Sun, W. Huang. Method of determining the transition boundary of slug flow to churn flow in vertical tubes [J]. Nuclear Power Engineering, 2006(S1):68-72.
[48]X. Cao, C. Yan, Z. Sun. Pressure drop correlations of two-phase bubble flow in rolling tubes [J]. Nuclear Power Engineering, 2007(01):72-77.
[49]X. Cao, C. Yan, Z. Sun. Calculation of frictional pressure drop of annular flow in rolling vertical tubes [J]. Nuclear Power Engineering, 2007(02):24-27.
[50]X. Cao, C. Yan, L. Sun, Z. Sun. Pressure drop characteristics of single-phase flow in vertical rolling pipes [J]. Nuclear Power Engineering, 2007(03):51-55.
[51]X. Cao, C. Yan, Z. Sun. Analysis of Slug Flow Unit Model in Rolling Vertical Tube [J]. Nuclear Power Engineering, 2007(03):47-50.
[52]Y. Hu, Z. Sun. The influence of baffle structure on shell side fluid flow and heat transfer for shell-and-tube heat exchanger[J].Applied Science and Technology, 2007(09):14-18.
[53]G. Lu, J. Wang, Z. Sun. Investigation on calculation method of mean temperature difference in heat exchanger thermodynamic calculation [J]. Nuclear Power Engineering, 2008(01):76-80.
[54]Z. Sun, X. Cao, X. Lv. Experimental study of temperature distribution in vertical narrow annuli with subcooled boiling in a naturally circulating system [J]. Journal of Harbin Engineering University, 2008(06):563-567.
[55]J. Zhang, C. Yan, X. Cao, Z. Sun. Experimental study on single-phase liquid friction factor in rolling horizontal pipe [J]. Nuclear Power Engineering, 2008(04):44-49.
[56]J. Zhang, C. Yan, Z. Sun. Investigation of flow pattern transition for gas-liquid two-phase flow in horizontal rolling pipes [J]. Journal of Harbin Engineering University, 2008(10):1050-1053.
[57]K. Yu, X. Cao, C. Yan, Z. Sun. Analysis of void fraction changes of two-phase flow in rolling tubes [J]. Journal of Harbin Engineering University, 2008, 29(11):1250-1254.
[58]Z. Li, Z. Sun, Y. Liao. The research on the resistance characteristics of microsphere packed bed porous media in non-Darcy regime [J].Applied Science and Technology, 2009, 36(04):61-64.
[59]S. He, Z. Sun, C. Yan, G. Fan. Experimental study on characteristics of heat transfer and flow resistance in flat tube [J]. Nuclear Power Engineering, 2009, 30(02):12-15+54.
[60]S. He, C. Yan, Z. Sun, G. Fan. Experimental study on wall temperature distribution of flat tube [J]. Nuclear Power Engineering, 2010, 31(S1):60-64.
[61]G. Niu, C. Yan, Z. Sun, S. Shi, L. Wang. Experimental Research on heat transfer enhancement of lubricating-oil cooler with mixing integral pin-fin tubes and plain tubes [J]. Chinese Journal of Nuclear Science and Engineering, 2010, 30(02):155-159.
[62]L. Sun, C. Yan, Z. Sun. An evaluation of prediction methods for frictional pressure drop of two-phase flow in Mini-Channels [J]. Nuclear Power Engineering, 2010, 30(02):155-159.
[63]L. Yu, L. Sun, Z. Sun. Prediction model for pressure drop of single-phase flows in porous media channel [J]. Nuclear Power Engineering, 2010, 31(05):63-66+88.
[64]L. Yu, L. Sun, Z. Sun. Numerical simulation of the resistance and heat exchange characteristics of a single-phase flow in the passages of a skeleton heat generation porous medium[J]. Journal of Engineering for Thermal Energy and Power, 2010, 25(06):614-616+684-685.
[65]M. Wang, S. He, J. Wang, Z. Sun. Nuclear power plant optimization platform design [J]. Sichuan Ordnance Engineering Journal, 2010, 31(11):110-112+120.
[66]L. Yu, L. Sun, Z. Sun. Numerical simulation of single-flow resistance in porous media channel [J]. Atomic Energy Science and Technology, 2010, 44(12):1441-1444.
[67]M. Wang, J. Wang, S. He, Z. Sun. An approach for solving complex local optimum and accelerating calculation [J]. Computer Applications and Software, 2011, 28(02): 277-278+289.
[68]M. Wang, J. Wang, Z. Sun, S. He, C. Yan. Optimum design of steam generator [J]. Nuclear Power Engineering, 2011, 32(01):29-33.
[69]G. Fan, Z. Sun, S. Zhu. Experimental research on single phase convection heat transfer in Micro-Fin Tube [J]. Nuclear Power Engineering, 2011, 32(01):99-103.
[70]G. Fan, Z. Sun, M. Wang. Experimental Research of Inclined-Micro-fin Flat Tube on Single Phase Convection Heat Transfer [J]. Atomic Energy Science and Technology, 2011, 45(02):174-178.
[71]G. Fan, Z. Sun, Z. Wang, M. Wang. Investigation on Single Phase Flow Resistance in Flat Tube [J]. Atomic Energy Science and Technology, 2011, 45 (03): 341-344.
[72]N. Zhang, Z. Sun. Experiment on resistance characteristics of gas-liquid two-phase flow in porous media channel [J]. Nuclear Power Engineering, 2011, 32 (03): 106-110 + 126.
[73]M. Wang, G. Fan, Z. Sun. Heat Transfer Enhancement and Optimal Design of Micro Rib Tube [J]. PETRO-CHEMICAL EQUIPMENT, 2011, 40 (04): 4-7.
[74]N. Zhang, Z. Sun, Z. Zhao. Experimental Investigation on Flow Patterns of Gas-Liquid Two-Phase Upward Flow through Packed Channel with Spheres [J]. Atomic Energy Science and Technology, 2011, 45 (09): 1040-1044.
[75]W. Zhang, Z. Sun, J. Wang, D. Zhai. Numerical Analysis of Surge Line Thermal Stratification under Load Increasing Condition [J].Atomic energy science and technology, 2011, 45 (11): 1324-1328.
[76]G. Niu, C. Yan, Z. Sun, S. Shi, J. Nan. Comparative experiment study on heat transfer characteristics of lubricating-oil cooler with mixing integral pin-fin bundles [J]. Nuclear Science and Engineering, 2011, 31 (04): 317-320 + 326.
[77]S. Zhu, Z. Sun, G. Fan. Numerical Study on Flow and Heat Transfer Characteristics with Low-Reynolds Number in Micro-Wavy Tubes [J]. Nuclear Power Engineering, 2011, 32 (06): 51-55.
[78]S. Zhu, Z. Sun, G. Fan. Experiment Study on Heat Transfer and Flow Characteristics in Micro-wavy Tubes [J]. Atomic Energy Science and Technology, 2011, 45 (12): 1444-1448.
[79]X. Li, Z. Sun. Study of flooding in vertical narrow rectangular channels [J].Journal of Harbin Engineering University, 2012, 33 (01): 42-46.
[80]J. Ma, Z. Sun. Resistance characteristics of single-phase flow through porous media [J]. Applied Science and Technology, 2012, 39 (02): 72-76.
[81]X. Meng, Z. Sun, Z. Deng, G. Wang. Experimental Study on Heat Transfer Characteristics of Pebble-Bed Channels with Internal Heat Generation [J]. Nuclear Power Engineering, 2012, 33 (02): 71-74.
[82]M. Wang, Z. Sun, H. Gu. Development of Structure Design Program for Venturi Scrubber Working at Self-Priming Mode [J].Atomic energy science and technology, 2012, 46 (06): 701-704.
[83]L. Du, R. Tian, P. Zhang, Z. Sun. Numerical Simulation on Coupling Performance of Steam Flow Field and Electric Field in Capacitance Sensor Measuring Steam Wetness [J].Atomic energy science and technology, 2012,46 (08) : 936-942.
[84]X. Meng, Z. Sun, G. Xu, X. Zhang. Experimental study on convection heat transfer characteristics of stacked pebble-bed channels with an internal heat source [J].Journal of Harbin Engineering University, 2012,33 (09) : 1122-1126.
[85]X. Meng, Z. Sun, P. Zhou, G. Xu. Experimental Study on Single-Phase Convection Heat Transfer Characteristics of Pebble Bed Channels with Internal Heat Generation [J].Atomic energy science and technology, 2012, 46 (09): 1061-1066.
[86]L. Du, R. Tian, Z. Sun, X. Liu Xiaoyi. Analysis of Static Response Performance of Capacitance Sensors for Measuring Humidity of Wet Steam in Air and Water Systems [J]. Proceedings of the CSEE, 2012, 32 (26): 86-90 + 151.
[87]G. Xu, Z. Sun, X. Meng, X. Zhang. ONB characteristics in porous media with internal heat source [J]. CIESC Journal, 2012, 63 (10): 3080-3085
[88]S. He, C. Yan, Z. Sun, S. Liu. Structural optimization analysis of flat tube for heat transfer enhancement [J]. Journal of Central South University(Science and Technology), 2012,43 (10): 4087-4092
[89]M. Wang, Z. Sun, H. Gu, X. Guo, Y. Yu. Experimental Study of Pressure Drop Characteristics of Venturi Scrubber Working at Self-priming Mode [J]. Atomic Energy Science and Technology, 2012, 46 (11): 1353-1356
[90]N. Zhang, Z. Sun, C. Yan. Numerical Analysis of Flow Field in Three-Dimensional Randomly Packed Pebble-Bed Channel [J]. Atomic Energy Science and Technology, 2012, 46 (S2): 792-795
[91]G. Xu, Z. Sun, X. Meng, X. Zhang. Numerical Simulation of Fluid Flow and Heat Transfer in Pebble Bed Reactor [J]. Nuclear Power Engineering, 2013, 34 (03): 63-66
[92]X. Zhang, Z. Sun, X. Meng, G. Xu. Experimental Investigation of Subcooled Flow Boiling Incipience in Volumetrically Heated Packed Bed [J]. Nuclear Power Engineering, 2013, 34 (03): 58-62
[93]R. He, Z. Sun. Experimental and Simulation Study on Cooling Heat Transfer Characteristics in Narrow Annuli Fluid Channel [J]. Nuclear Power Engineering, 2013, 34 (S1): 123-127
[94]N. Zhang, Z. Sun, J. Wang, Z. Ge. Analysis of Grid Applicability in the CFD of Packed Bed [J]. Journal of Engineering Thermophysics, 2013, 34 (07): 1303-1306
[95]N. Zhang, Z. Sun. Numerical Study on Single Phase Flow Resistance Characteristics in Randomly Packed Channel with Spheres [J]. Nuclear Power Engineering, 2013, 34 (04): 43-46
[96]X. Zhang, Z. Sun, X. Meng, G. Xu. Effect of Variable Viscosity on Flow Resistance Characteristics of Porous Channel with Internal Heat Source [J]. Nuclear Power Engineering, 2013, 34 (04): 23-26
[97]X. Li, Z. Sun. Study of flooding in vertical narrow rectangular channels [J]. Chinese Journal of Hydrodynamics, 2013, 28 (05): 526-530
[98]J. Su, Z. Sun, L. Gao, G. Fan. Analysis on the wall sub-cooling of heat transfer of steam condensation with non-condensable air [J]. Journal of Harbin Engineering University, 2013, 34 (12): 1551-1555
[99]J. Su, Z. Sun, G. Fan. Visualization Experimental Investigation on Dark Spot Coherent Structure in Turbulent Boundary Layer [J]. Atomic Energy Science and Technology, 2013, 47 (10): 1723-1728
[100]X. Meng, Z. Sun, G. Xu, X. Zhang. Experimental Investigations of Boiling Heat Transfer Hysteresis on Packed Bed [J]. Atomic Energy Science and Technology, 2013, 47 (10): 1782-1786
[101]G. Fan, Z. Sun, J. Su. Experimental Study on Single Phase Flow Convection Heat Transfer of Flat Tube [J]. Atomic Energy Science and Technology, 2013, 47 (10): 1735-1739
[102]J. Su, Z. Sun, G. Fan, S. Wang. Visualization Experimental Investigation on Long Stripe Coherent Structure in Small-scale Rectangular Channel [J]. Atomic Energy Science and Technology, 2013, 47 (11): 2003-2008
[103]Y. Zhou, Z. Sun, H. Gu, J. Wang. Experimental Research on Performance of Gaseous Methyl Iodide Removal [J]. Atomic Energy Science and Technology, 2013, 47 (11): 2125-2130
[104]J. Su, Z. Sun, G. Fan, Z. Guo. Analysis of Experiments for Vertical Out-Tube Steam Condensation in Presence of Non-Condensable Gases [J]. Nuclear Power Engineering, 2014, 35 (01): 36-41
[105]X. Guo, Z. Sun, D. Zhang. Experimental Study of Flow Instability in Elongated Natural Circulation System [J]. Atomic Energy Science and Technology, 2014, 48 (02): 267-270
[106]J. Su, Z. Sun, G. Fan, X. Hou Xiaofan. Experimental Study on Condensation of Steam with Air on Outer Wall of Vertical Pipe [J]. Atomic Energy Science and Technology, 2014, 48 (02): 263-266
[107]X. Zhang, Z. Sun, X. Meng, G. Xu. Prediction of Two-phase Pressure Drop During Flow Boiling in Porous Media Channel With Internal Heat Source [J]. Atomic Energy Science and Technology, 2014, 48 (02): 241-245
[108]G. Xu, Z. Sun, X. Meng, X. Zhang. Experimental Investigation on Onset of Flow Instability in Porous Media Channel with Internal Heat Source [J]. Atomic Energy Science and Technology, 2014, 48 (03): 453-456
[109]X. Guo, Z. Sun, J. Wang. Experimental study on start-up characteristics of open natural circulation system [J]. Nuclear Techniques, 2014, 37 (04): 71-76
[110]J. Su, Z. Sun, L. Gao. Analysis of experiments for steam condensation in presence of non-condensable gases with moderate wall subcooling [J]. CIESC Journal, 2014, 65 (10): 3884-3890
[111]G. Xu, Z. Sun, X. Meng, X. Zhang. Bubble Behaviors in the Subcooled Flow Boiling Heat Transfer in the Volumetrically Heated Packed Bed [J]. Journal of Engineering Thermophysics, 2014, 35 (07): 1365-1368
[112]J. Su, Z. Sun, D. Zhang. Modeling and Numerical Simulation of Steam Condensation with Air [J]. Atomic Energy Science and Technology, 2014, 48 (07): 1188-1193
[113]J. Su, H. Wang, Z. Sun, D. Zhang. Numerical simulations for steam condensation in presence of air [J]. CIESC Journal, 2014, 65 (09): 3425-3433
[114]Y. Zhou, Z. Sun. Injection performance and influencing factors in self-priming Venturi scrubber [J]. CIESC Journal, 2015, 66 (01): 99-104
[115]Y. Zhou, Z. Sun, H. Gu, J. Wang. Research on Solubility Characteristics of Gaseous Methyl Iodide [J]. Atomic Energy Science and Technology, 2014, 48 (11): 2023-2027
[116]J. Wang, Z. Sun, H. Gu, Y. Zhou. The effect of placement conditions on the spectrophotometric determination of iodine ions in the containment filtration discharge system [J]. Physical Testing and Chemical Analysis Part B: Chemical Analysis, 2014, 50 (12): 1592-1594
[117]Y. Li, X. Cao, K. Wang, Z. Sun. Validation of RELAP5/MOD3. 2 Code for Simulating Pool Boiling Heat Transfer Outside Vertical Tube Bundle [J]. Atomic Energy Science and Technology, 2014, 48 (12): 2269-2273
[118]K. Wang, X. Cao, Y. Li, Z. Sun. Research on Characteristics of Pool Boiling for Passive Residual Heat Removal Heat Exchanger [J]. Atomic Energy Science and Technology, 2014, 48 (12): 2263-2268
[119]J. Wang, Z. Sun, H. Gu, Y. Zhou. Experimental Investigation on Steam Condensation Local Heat Transfer Characteristics Inside Horizontal Tube [J]. Atomic Energy Science and Technology, 2014, 48 (12): 2219-2223
[120]L. Wang, Z. Sun, G. Fan, J. Su. Experimental Study on the Condensation of Steam with Air outside the Vertical Tube Bundles [J]. Nuclear Safety, 2014, 13 (04): 79-83
[121]H. Xu, Z. Sun, H. Gu, H. Li. Local heat transfer characteristics of saturated steam forced convection condensation inside horizontal tube [J]. CIESC Journal, 2015, 66 (01): 92-98
[122]H. Xu, Q. Sun, H. Gu, H. Li, Z. Sun. Local heat transfer characteristics for forced convection condensation of steam/air in horizontal tube [J]. CIESC Journal, 2015, 66 (07): 2456-2463
[123]Y. Zhou, Z. Sun, H. Gu, J. Wang. Research on Performance of Gas Methyl Iodide Removal in Bubble Column Reactor [J]. Nuclear Power Engineering, 2015, 36 (02): 138-142
[124]X. Qu, Z. Sun, M. Ding. Study on Effect of Header Match on Flow Distribution in U-type Arrangement Parallel Manifold of Heat Exchanger [J]. Atomic Energy Science and Technology, 2015, 49 (04): 623-628
[125]Y. Zhou, Z. Sun, H. Gu, Z. Miao. Research on Injection Characteristics of Venturi Scrubber Worked in Self-priming Mode [J]. Atomic Energy Science and Technology, 2015, 49 (06): 1075-1079
[126]H. Xu, Z. Sun, H. Gu, H. Li. Influence of air on forced convection condensation heat transfer of steam in a horizontal tube [J]. Journal of Harbin Engineering University, 2015, 36 (11): 1443-1447
[127]R. He, Z. Sun. Experimental Investigation on Heat Transfer of Helical Baffle Heat Exchanger with Wave-groove Tubes [J]. World Sci-Tech R & D, 2015, 37 (05): 525-528
[128]X. Hou, Z. Sun, G. Fan, M. Ding, J. Su. Experimental Investigation of Startup Characteristics in Open Natural Circulation System [J]. Atomic Energy Science and Technology, 2015, 49 (10): 1772-1777
[129]K. Wang, C. Cao, Y. Li, Z. Sun. Research on Characteristics of Condensation Heat Transfer for Passive Residual Heat Removal Heat Exchanger [J]. Atomic Energy Science and Technology, 2015, 49 (10): 1752-1757
[130]L. Pan, J. Su, G. Fan, Z. Sun. Study on Steam/Air Condensation Heat Transfer Model [J]. Nuclear Power Engineering, 2015, 36 (06): 45-50
[131]H. Xu, Q. Sun, H. Gu, H. Li, Z. Sun. Effects of Wall Sub-Cooling on Local Heat Transfer for Forced Convection Condensation of Steam/air in A Horizontal Tube [J]. Nuclear Power Engineering, 2016, 37 (01): 43-47
[132]X. Hou, Z. Sun, Q. Sun, G. Fan, W. Lei Wenjing. Experimental study on geysering in an open natural circulation system [J]. Journal of Harbin Engineering University, 2016, 37 (04): 556-561
[133]H. Xu, Q. Sun, H. Gu, H. Li, Z. Sun. Study on Heat Transfer Model for Forced Convection Condensation of Steam-air Mixture in Horizontal Tube [J]. Atomic Energy Science and Technology, 2016, 50 (04): 621-626
[134]X. Hou, Z. Sun. Linear homogeneous-flow model of flashing instability in open natural circulation system [J]. Journal of Harbin Engineering University, 2016, 37 (07): 930-935
[135]X. Guo, Z. Sun, J. Wang, S. Yu. Scaling Analyses of the Flashing-Induced Two-Phase Natural Circulation [J]. Journal of Engineering Thermophysics, 2016, 37 (06): 1297-1303
[136]X. Hou, Q. Sun, G. Fan, Z. Sun, W. Li. Experimental Investigation of Flashing Instability Induced Water Hammer in Open Natural Circulation System [J]. Atomic Energy Science and Technology, 2016, 50 (06): 1014-1020
[137]L. Wang, Z. Sun, L. Zhang, W. Li, C. Tang, Y. Liu, X. Wu. Research on bubble aggregation in air water two-phase flow in vertical rectangular channels [J]. Science & Technology Vision 2017 (16): 197-198
[138]Z. Guo, Z. Sun, N. Zhang. Research on Method of Point Contact Modification between Spherical Fuel Particles [J]. Nuclear Power Engineering, 2017, 38 (05): 164-168
[139]J. Liu, X. Liu, Z. Sun, Z. Meng. Experimental Investigation on Pressure Oscillation of Submerged Steam Jet Condensation with Non-condensable Gas [J]. Atomic Energy Science and Technology, 2019, 53 (02): 312-318
[140]H. Bian, Z. Sun, M. Ding, N. Zhang, Z. Meng, L. Wang. Numerical simulations on steam condensation heat transfer characteristics in the presence of air [J]. Journal of Harbin Engineering University, 2019, 40 (02): 426-432
[141]J. Wen, Z. Sun, H. Gu, Z. Liu. A theoretical analysis of bubbling to degas methyl iodide by evaporation [J]. Journal of Harbin Engineering University, 2019, 40 (09): 1595-1600
