ACADEMICAL EXPLORATION
A) Journal articles
80.
Li S.,
М.Н. Смирнова, Yang SJ., Н.Н. Смирнов, Zhu Z. (2023):
Exploring the effects of work zone on vehicular flow on ring freeways with a tunnel using a three-lane continuum model
,
Elsevier Science,
International Journal of Transportation Science and Technology,
14, 27-41.
79.
Hu ZJ.,
М.Н. Смирнова, Н.Н. Смирнов, Zhang YL., Zhu Z. (2023):
Impacts of down-up hill segment on the threshold of shock formation of ring road vehicular flow ,
Global Science,
Advances in Applied Mathematics and Mechanics,
15(5), 1315-1334, https://doi.org/10.4208/aamm.OA-2021-0316.
78.
Li ZM.,
М.Н. Смирнова, Zhang YL., Н.Н. Смирнов, Zhu Z.(2023):
Numerical exploration of freeway tunnel effects with a two-lane traffic model ,
Sage Science,
Simulation: Transactions of the Society for
Modeling and Simulation International,
99(1), 55-68.
77.
Hu ZJ.,
М.Н. Смирнова, Zhang YL., Zhu Z. , Н.Н. Смирнов(2022):
Tunnel effects on road efficiency and travel time explored by a three lane traffic model ,
Elsevier Science,
Transportation Research Interdisciplinary Perspectives ,
14, 100573.
76.
Li ZM.,
М.Н. Смирнова, Zhang YL., Н.Н. Смирнов, Zhu Z.(2022):
Tunnel speed limit effects on traffic flow explored with a three lane model ,
Elsevier Science,
Mathematics and Computers in Simulation,
194, 185-197.
75.
Zhang YL.,
М.Н. Смирнова, Ma J., Zhu Z., Н.Н. Смирнов, (2022):
Freeway tunnel effect of travel time based-on a double lane traffic model ,
Elsevier Science,
International Journal of Transportation Science and Technology,
11, 360-380.
74.
Zhang YL.,
М.Н. Смирнова, Ma J., Н.Н. Смирнов, Zhu Z.(2021):
Tunnel effects on ring road traffic flow based on an urgent-gentle class traffic model ,
Elsevier Science,
Theoretical and Applied Mechanics Letters,
11, 100283.
73.
Hu ZJ.,
М.Н. Смирнова, Zhang YL., Н.Н. Смирнов, Zhu Z.(2021):
Estimation of travel time through a composite ring road by a viscoelastic traffic flow model ,
Elsevier Science,
Mathematics and Computers in Simulation,
181, 501–521.
72.
М.Н. Смирнова, V.F. Nikitin, D.A. Pestov, and Zhu Z.(2020):
Mathematical modeling of air pollution in city tunnels and evaluating mitigation strategies
,
Elsevier Science,
Transportation Research Interdisciplinary Perspectives ,
4, 100086
71.
Liu YJ., Li FY., Fu W., Jiang XD., Song ZH., Zhu Z., and
Lin QZ.(2019):
Experimental Investigation of Effects of Di-N-Butyl Ether Addition on Spray Macroscopic
Characteristics of Diesel-Biodiesel Blends
,
ASCE( American Society of Civil Engineers )
J. Energy Eng. ,
145(6), 04019028
70.
Hu ZJ., Zhang YL., and Zhu Z.(2018):
Inlet flow disturbance effects on direct numerical simulation of
incompressible round jet at Reynolds number 2500,
Elsevier Science,
Theoretical and Applied Mechanics Letters,
8, 345-350.
69.
Zhang YL.,
М.Н. Смирнова, А.И. Богданова, Zhu Z.,
and Н.Н. Смирнов(2018):
Travel time prediction with a viscoelastic traffic model,
Shanghai University and Springer-Verlag,
Appl. Math. Mech. -Engl. Ed.,
39(12), 1769-1788.
68.
Ma J., Chan CK.,
Ye ZB., and Zhu Z.(2018):
Effects of maximum relaxation in viscoelastic traffic flow modeling , Elsevier Science,
Transportation Research Part B- Methodological,
113, 143-163.
67.
Zhang YL.,
М.Н. Смирнова, А.И. Богданова, Zhu Z.,
and Н.Н. Смирнов(2018):
Travel time estimation by urgent-gentle class traffic flow model,
Elsevier Science,
Transportation Research Part B- Methodological,
113, 121-142.
66.
Wei AH., Wu QQ., Zhu Z., (2017):
Numerical solution to the Poisson equation under the spherical coordinate system with BiGCGSTAB method,
JOURNAL OF UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,
47(8), 695-698.
65.
Li YP., Zhang L., Lin QZ.,
and Zhu Z.(2017):
Large eddy simulation of normally impinging round air-jet heat transfer at
moderate Reynolds numbers, Taylor and Francis,
Heat Transfer Engineering,
38(17),1439-1448.
64.
М.Н. Смирнова, А.И. Богданова, Zhu Z.,
and Н.Н. Смирнов(2017):
Traffic flow sensitivity to parameters in viscoelastic
modelling, Taylor and Francis,
Transportmetrica B: Transport Dynamics,
5(1), 115-131.
63.
Li YP., Lin QZ.,
Zhu Z.(2017):
LES of normally impinging elliptic air-jet heat transfer at Re=4400, Global Science,
Advances in Applied Mathematics and Mechanics,
9(2),485-500.
62. М.Н. Смирнова, А.И. Богданова, Zhu Z., and Н.Н. Смирнов(2016): Traffic flow sensitivity to visco-elasticity, Elsevier Science, Theoretical and Applied Mechanics Letters, 6, 182-185.
61.
Sun XW., Chan CK.,
Mei BW., and Zhu Z., (2016):
Les of convective heat transfer and incompressible fluid flow past
a square cylinder, Taylor and Francis,
Numerical Heat Transfer, Part A: Applications,
69(10),1106-1124.
60.
Li YL., Chan CK.,
Mei BW., and Zhu Z., (2015):
LES of incompressible heat and fluid flows past a square cylinder at high Reynolds numbers, Taylor and Francis,
International Journal of Computational Fluid Dynamics,
29(3-5),272-285.
59.
А.И. Богданова, М.Н. Смирнова, Zhu Z.,
and Н.Н. Смирнов(2015):
Exploring peculiarities of traffic flows with a viscoelastic model, Taylor and Francis,
Transportmetrica A: Transport Science,
11(7), 561-578.
58.
Wei AH.,
Zhu Z.
(2014): Sensitivity to turnover rate in stock market of
mainland China, Research and Applications in Economics, 2, 100-103.
57.
М.Н. Смирнова, А.И. Богданова, Zhu Z.,
А.С.Маненкова, and
Н.Н. Смирнов(2014):
МАТЕМАТИЧЕСКАЯ МОДЕЛЬ АВТОТРАНСПОРТНЫХ ПОТОКОВ
С ЭЛЕМЕНТАМИ ВЯЗКОУПРУГОСТИ,
МАТЕМАТИЧЕСКОЕ МОДЕЛИРОВАНИЕ, 26(7), 54-64.
56.
Zhang Z., Chen W., Zhu Z.,
and Li YL.(2014):
Numerical exploration of turbulent air natural-convection
in a differentially heated square cavity at Ra = 5.33 x 10^9,
Springer Science,
Heat Mass Transfer,
50(12), 1737-1749.
55.
Zhu Z.,
Niu
J., and Li YL.(2014):
Swirling-strength based large eddy simulation of turbulent flows around a single square cylinder at low Reynolds numbers,
Shanghai University and Springer-Verlag,
Appl. Math. Mech. -Engl. Ed.,
35(8), 959-978.
54.
Wu Q., Eric S.W. Wong, and
Zhu Z.
(2014): A data-processing approach for exploring water-use
maneuver of high-rise building, SAGE Science,
Building Serivces Engineering Research and Technology,
35(4), 341-348.
53.
Li YL., Eric S.W. Wong, and
Zhu Z.
(2013):
Mathematical modeling of air pressure in a drainage stack of a high-rise
building test platform,ASCE( American Society of Civil Engineers ), Journal of Architectural Engineering,
ISSN 1076-0431/06013001(3); DOI:10.1061/(ASCE)AE.1943-5568.0000123.
52.
Eric S.W. Wong, Li YL., and
Zhu Z.
(2013):
Predicting air pressure in a drainage stack of high-rise building,Shanghai University and Springer-Verlag,
Appl. Math. Mech. -Engl. Ed.,
34(3), 351-362.
51.
Lin C.,
Yang H., and
Zhu Z.
(2012):
Numerical exploration of 1+2 type laminar natural
convection in a differentially heated square cavity using Chebyshev
spectral collocation method, Elsevier Science,
International Communications in Heat and Mass Transfer,
39(5), 593-597.
50.
Zhu Z., and
Yang C.(2011):
Visco-elastic traffic flow model,
Wiley & Sons, Inter-Science,
Journal of Advanced Transportation,
47,635-649.
49.
Eric S.W. Wong, Daniel W.T. Chan, and
Zhu Z.
(2011):
Fluctuation behaviors of air pressure in a high-rise building drainage system, ASCE( American Society of Civil Engineers ),
Journal of Architectural Engineering,17(2), 82-84.
48.
Lin C.,
and
Zhu Z.
(2010):
Direct numerical simulation of incompressible flows in a zero-pressure gradient turbulent boundary layer,
Global Science,
Advances in Applied Mathematics and Mechanics,
2(4), 503-517.
47.
Zhu Z.,
Yang H., and
Chen T.(2010):
Numerical study of turbulent heat and fluid flow in a straight square duct at higher Reynolds numbers
, Elsevier Science,
International Journal of Heat and Mass Transfer,
53,356-364.
46.
Zhu Z.,
Yang H., and Chen T.(2009):
Direct numerical simulation of turbulent flow in a straight square duct at Reynolds number 600,
Elsevier Science,
Journal of Hydrodynamics B,
21(5),600-607.
45.
Yang H., Chen T.,
and
Zhu Z.(2009):
Numerical study of forced turbulent heat convection in a straight square duct
, Elsevier Science,
International Journal of Heat and Mass Transfer,
52(13-14), 3128-3136.
44.
Yang H., and
Zhu Z.
(2008):
Numerical study of three-dimensional turbulent natural convection in a differentially heated air-filled tall cavity
, Elsevier Science,
International Communications in Heat and Mass Transfer,
35(5), 606-612.
43.
Chang G.L., and
Zhu Z.(2006): A macroscopic traffic model for highway work zones: formulations
and numerical results, Wiley & Sons, Inter-Science,
Journal of Advanced Transportation,
40(3), 265-287.
42.
Niu
J., and
Zhu Z., Huang S.H.(2006): Numerical study of convective heat transfer from
two identical square cylinders submerged in a uniform cross flow,
Taylor & Francis Science ,
Numerical Heat Transfer PART A: Applications,
50(1)21-44.
41.
Niu
J., and
Zhu Z.(2006): Numerical study of three-dimensional flows around
two identical square cylinders in staggered arrangements, AIP ,
Physics of Fluids,
18(4),044106.
40. Yang H., and Zhu Z.(2006): Numerical simulation of turbulent Rayleigh-Benard convection, Elsevier Science, International Communications in Heat Mass Transfer, 33(2)184-190.
39. Xie Z. , Zhu Z., and Hu J.(2006): Numerical study of mixed freeway traffic flows, Wiley & Sons, Inter-Science, Communications in Numerical Methods in Engineering, 22(1)33-39.
38. Xu S.L., Liu K., Zhu Z., Yue P.(2005): Numerical experiments of three dimensional mixing of natural gas and air, Elsevier Science, Journal of Hydrodynamics, B, 17(1),12-22.
37. Zhu Z. , Wang X., Su Z.(2004):Numerical error patterns for a scheme with Hermite interpolation for 1+1 linear wave equations, Wiley & Sons, Inter-Science, Communication in Numerical Method in Engineering, 20, 353-361.
36. Niu J. and Zhu Z.(2004): Numerical evaluation of weakly turbulent flow patterns of natural convection in a square enclosure with differentially heated sidewalls, Taylor & Francis Science, Numerical Heat Transfer,PART A: Applications, 45(6),551-568.
35. Yang H., and Zhu Z.(2004): Exploring super-critical properties of secondary flows of natural convection in inclined channels, Elsevier Science, International Journal of Heat Mass Transfer, 47(6-7),1217-1226.
34.
Zhu Z.,
Chang G.L.
and Wu T.(2004): Numerical analysis of freeway traffic flow dynamics
under multiclass drivers, National Academy,
Transportation Research Record,
1852,
201-219.
33. Zhu Z., Xie Z.(2003): A projection method for laminar convective heat transfer, J. on Numerical Mathematics and Applications, 25(4), 72-77.
32. Yang H., and Zhu Z.(2003): Numerical study on transient laminar natural convection in an inclined parallel-walled channel, Elsevier Science, International Communications in Heat and Mass Transfer, 30(3), 359-367.
30. Zhu Z.,and Yang H.(2003): Numerical investigation of transient laminar natural convection of air in a tall cavity, Springer Science, Heat and Mass Transfer, 39(7),579-587.
29. Zhu Z., Wu Q., Jiang R.,and Wu T.(2002): Numerical study on traffic flow with a single parameter state equation, ASCE( American Society of Civil Engineers ), Journal of Transportation Engineering, 128(2), 167-172.
28.
Zhu Z., Zhu X.,
and Sun J.
27. Zhu Z., Wu. Q., Gao C.F., and Du X.Y.(2002): Numerical simulation of two dimensional transient water driven non-Newtonian fluid flow in porous media, Wiley & Sons, Inter-Science, Communications in Numerical Methods in Engineering, 18(4), 229-240.
26.
Zhu Z.,
and
Yang H.(2002): Discrete Hilbert transformation and its application
to estimate the wind speed in
25. 朱祚金,姜锐,杨洪兴, 吴清松(2002): 光伏墙体内非稳态传热的理论和实验研究, 太阳能学报, 23 (1), 49-54.
24. 朱祚金(2002): 靠近排列的两个交错方柱三维绕流的数值模拟, 力学学报, 34(3),425-431.
23. Jiang R., Wu Q., and Zhu Z.(2002): A new continuum dynamics model for traffic flow and numerical tests, Elsevier Science, Transportation Research Part B- Methodological, 36,405-419.
22. Jiang R., Wu Q., and Zhu Z.(2002): Kinematic wave properties on an-isotropic dynamics model for traffic flow, Applied Mathematics and Mechanics-English Edition, 23(4), 409-414.
21. Zhu Z.(2001): On the filtration of a non-Newtonian fluid in a porous medium with a multiple parameter model, Chinese Ocean Press, Journal Hydrodynamics Part B, 1, 39-46.
20. 姜锐,吴清松,朱祚金 (2001): 一种新的交通流动力学模型, 中国科学通报, 46(4), 345-348.
19. Jiang R., Wu Q., and Zhu Z.(2001): Full velocity difference model for a car-following theory, Physical Review E 64, 017101/1-4.
18. Yang H., Zhu Z., and John G.(2001): Numerical simulation of thermal fluid instability between two horizontal parallel plates, Elsevier Science, International Journal Heat and Mass Transfer, 44(8), 1485-1493.
17. Yang H., Zhu Z., and John B. .(2001): A simulation study on energy performance of photovoltaic roofs, ASHRAE Transaction, 107(2), 129-135.
16. Yang H., John B., and Zhu Z. (2001): Building-integrated Photovoltaics: Effect on Cooling Load Component of Building Facades, SAGE Science, Building Serivces Engineering Research and Technology, 22(3), 157-165.
15.
Yang H.,
Zhu Z., and John B. (2000): A macroscopic approach- performance
of crystalline silicon photovoltaic modulus, Transaction of The
14.
Yang H.,
Zhu Z., and John B. (2000): Simulation study on transparent
insulation material application in buildings in
13. 朱祚金等(2000): 激光照射下金属-炸药复合板中温度场的数值模拟, 强激光与粒子束, 12(2), 137-140.
12. 钟展强,吴清松,朱祚金,朱锡锋 (1999): 水驱粘塑性非牛顿原油渗流特性的数值模拟, 中国科学技术大学学报, 29(4), 472-478.
11. 季杰, 朱祚金,何立群,葛新石(1998): 并联冰盘管蓄冷装置设计方法探讨, 暖通空调, 28(1), 27-29.
10. 季杰, 朱祚金等 (1998): 并联冰盘管蓄冷装置中的化冰特性研究, 中国科学技术大学学报, 27(4), 477-480.
09. Zhu Z., Zou Y., and Chen Y. (1997): Numerical simulation of turbulent flow around twin plate at large attack angle, Chinese Ocean Press, Journal of Hydrodynamics, B, 3, 33-40.
08. 朱祚金,陈义良,张孝春(1997): A gas-droplets combustion model for afterburner of aerospace engines, Journal of Aerospace Power, 12(4), 345-349.
07. 朱祚金,韩百,陈义良,张孝春(1997): 加力燃烧室单相燃烧模型及其应用, 推进技术, 18(5), 36-40.
06. 季杰, 朱祚金等 (1997): 并联冰盘管蓄冷装置中的制冰特性研究, 中国科学技术大学学报, 26(2), 213-215.
05. 孟宁,陈义良,朱祚金(1997): 应用PDF方法对甲烷射流火焰组分浓度分布的数值研究, 工程热物理学报, 18(6), 759-763.
04. 朱祚金等 (1997): KDV-Burgers方程的拟特征线方法求解, 中国科学技术大学学报, 27(4), 481-486.
03. 朱祚金,陈义良,刘岳元(1996): Navier-Stokes方程的Runka解法及其应用, 数值计算与计算机应用, 17(3),203-209.
02. 朱祚金,刘明侯,陈义良(1995): 旋转矩形通道中粘性流动的数值模拟, 推进技术, 16(6), 51-58.
01. 朱祚金,林洪昌,陈义良(1995): 中等Reynolds数下并列方柱湍流的数值模拟──MAC-AF1方法及其应用, 水动力学研究与进展, 10(5), 493-500.
B) Conference papers
8. Zhu Z., Wu Q., and Gao C.F.(2001): Numerical simulation for the process of recovery of a planar reservoir with non-Newtonian petroleum, Proc. of ASME Heat Transfer Division, USA, New York, November [International Mechanical Engineers Congress and Exposition(IMECE), 2001].
7. Zhu Z., Yang H., and Wu Q.(2000): Investigation of heat transfer in a building integrated photovoltaic system, Proc. of ASME Fluid Engineering Division FED- 253, 263-270.
6.
Ji J., Zhu Z., Ye T., and He L.(1997): The study on the
discharge performance of internal ice melt, Proc. of China-Japan Joined Symp.
on Advanced Energy and Transportation Engineering,
5. Zhu Z., Hu F., and Chen Y.(1997): The basic equations for gas droplets multiphase flow. Proc. Int. Symp. on Multiphase Flow, Beijing, October, 1997, 33-37.
4. Hu F., Zhu Z., and Yu S.(1997): Pulverized Coal Transport Analysis with Non-Newtonian Turbulence Model, Proc. of Int. Symp. on Multiphase Flow, Beijing, October, 1997, 351-355.
3. Zhu Z., Meng N., and Chen Y.(1996): The solution of the governing equations of flow in water channels in terms of a characteristic line method, Proc. of the Second Symp. of Ocean Technology, Kun-Ming, China, July, 1996, 976-981 (in Chinese).
2. Zhu Z., and Chen Y.(1994): Numerical simulation of laminar flow in a sharp expanded circular pipe, Proc. of Hydrodynamics, Huang-shan, Anhui, China, 1994, 174-177 (in Chinese).
1.
Zhu Z., Liu Y.Y., and Liu Y.Z.(1991): Numerical simulation
of flow past two square cylinders in tandem arrangement, The 2nd Osaka
International Colloquium on Viscous Fluid Dynamics in Ship and Ocean Technology,
Japan, Osaka, Sept., 1991, 27-30.
