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ISI/Scopus articles (2014 – )

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In press

  1. [35]    Ngoc T. B. Hoang, “Computational investigation of the variation in wing aerodynamic load under the effect of aeroelastic deformations,” Journal of Mechanical Science and Technology, accepted 2018.

2018

  1. [34]     N. Van Hien, N. Van He, and P. G. Diem, “A model-driven implementation to realize controllers for Autonomous Underwater Vehicles,” Applied Ocean Research, vol. 78, pp. 307–319, Sep. 2018. (IF2017 = 1.95, OCEANOGRAPHY: 24 of 64, Q2)
  2. [33]     X. Wei, V. Q. Do, S. V. Pham, D. Martins, and Y.-A. Song, “A Multiwell-Based Detection Platform with Integrated PDMS Concentrators for Rapid Multiplexed Enzymatic Assays,” Scientific Reports, vol. 8, no. 1, p. 10772, Jul. 2018. (IF2017 = 4.122, MULTIDISCIPLINARY SCIENCES: 12 of 64, Q1)
  3. [32]     T. V. Vu, “Fully resolved simulations of drop solidification under forced convection,” Int. J. Heat Mass Transfer, vol. 122, pp. 252–263, Jul. 2018. (IF2017 = 3.891, MECHANICS: 9 of 134, Q1)
  4. [31]     T. V. Vu, “Deformation and breakup of a pendant drop with solidification,” Int. J. Heat Mass Transfer, vol. 122, pp. 341–353, Jul. 2018. (IF2017 = 3.891, MECHANICS: 9 of 134, Q1)
  5. [30]     I. L. Ngo, C. Byon, and B. J. Lee, “Analytical study on thermal conductivity enhancement of hybrid-filler polymer composites under high thermal contact resistance,” International Journal of Heat and Mass Transfer, vol. 126, pp. 474–484, Jun. 2018. (IF2017 = 3.891, MECHANICS: 9 of 134, Q1)
  6. [29]     T. V. Vu, “Axisymmetric Forced Convection Solidification of a Liquid Drop on a Cold Plate,” Int. J. Multiphase Flow, Jun. 2018. (IF2017 = 2.592, MECHANICS: 26 of 134, Q1)
  7. [28]     T. V. Vu, L. V. Vu, B. D. Pham, and Q. H. Luu, “Numerical investigation of dynamic behavior of a compound drop in shear flow,” J. Mech. Sci. Technol., vol. 32, no. 5, pp. 2111–2117, May 2018. (IF2016 = 1.128, ENGINEERING, MECHANICAL: 87 of 130, Q3)
  8. [27]     Duc-Khanh Nguyen, Anh-Tuan Le, Thu-Huong Tran Thi, and Ming-Hsun Wu, “A 1-D Numerical Analysis on the Control of HCCI Combustion in a CI Engine Through Exhaust Gas Recirculation,” Journal of the Chinese Society of Mechanical Engineers, vol. 39, no. 2, pp. 179–186, Apr. 2018. (IF2017 = 0.112, ENGINEERING, MECHANICAL: 126 of 128, Q4)
  9. [26]     K. N. Duc and V. N. Duy, “Study on performance enhancement and emission reduction of used fuel-injected motorcycles using bi-fuel gasoline-LPG,” Energy for Sustainable Development, vol. 43, pp. 60–67, Apr. 2018. (IF2016 = 2.79, ENERGY & FUELS: 35 of 92, Q2)
  10. [25]     J. E et al., “Effects of injection timing and injection pressure on performance and exhaust emissions of a common rail diesel engine fueled by various concentrations of fish-oil biodiesel blends,” Energy, vol. 149, pp. 979–989, Apr. 2018. (IF2016 = 4.52, ENERGY & FUELS: 18 of 97, Q1)
  11. [24]     A. T. Hoang, Q. V. Tran, and X. D. Pham, “Performance and emission characteristics of popular 4-stroke motorcycle engine in Vietnam fuelled with biogasoline compared with fossil gasoline,” International Journal of Mechanical and Mechatronics Engineering, vol. 18, no. 2, pp. 97–103, Apr. 2018. (SCOPUS)
  12. [23]     T. V. Vu, K. V. Dao, and B. D. Pham, “Numerical simulation of the freezing process of a water drop attached to a cold plate,” J Mech Sci Technol, vol. 32, no. 5, pp. 2119–2126, May 2018. (IF2016 = 1.128, ENGINEERING, MECHANICAL: 87 of 130, Q3)
  13. [22]     K. N. DucH. N. Tien, and V. N. Duy, “Performance enhancement and emission reduction of used motorcycles using flexible fuel technology,” Journal of the Energy Institute, vol. 91, no. 1, pp. 145–152, Feb. 2018. (IF2016 = 3.204, ENERGY & FUELS: 25 of 97, Q2)
  14. [21]     T. V. Vu, C. T. Nguyen, and D. T. Khanh, “Direct numerical study of a molten metal drop solidifying on a cold plate with different wettability,” Metals, vol. 8, no. 1, p. 47, Jan. 2018. (IF2016 = 1.984, METALLURGY & METALLURGICAL ENGINEERING: 13 of 74, Q1)

2017

  1. [20]     K. N. Duc, H. N. Tien, and V. N. Duy, “A Study of Operating Characteristics of Old-Generation Diesel Engines Retrofitted with Turbochargers,” Arab J Sci Eng, pp. 1–10, Nov. 2017. (IF2016 = 0.865, MULTIDISCIPLINARY SCIENCES: 36 of 64, Q3)
  2. [19]     T. V. Vu, “Three-phase computation of solidification in an open horizontal circular cylinder,” Int. J. Heat Mass Transfer, vol. 111, pp. 398–409, Aug. 2017. (IF2016 = 3.458, MECHANICS: 9 of 133, Q1)
  3. [18]     T. V. Vu, “Three-phase numerical simulations of solidification with natural convection in a vertical cylindrical annulus,” Int. J. Multiphase Flow, vol. 95, pp. 120–134, Oct. 2017. (IF2016 = 2.509, MECHANICS: 27 of 133, Q1)
  4. [17]     L. T. Tung, “Design a Ship Autopilot using Neural Network,” Journal of Ship Production and Design, vol. 33, no. 3, pp. 192–196, Jun. 2017. (IF2016 = 0.5, ENGINEERING, MARINE: 12 of 14, Q4)
  5. [16]     V.-T. Truong and Y.-L. Hwang, “A New Approach for Dynamic Analysis and Driving Control of CNC Machine Tool,” Journal of the Chinese Society of Mechanical Engineers, vol. 38, pp. 165–171, Apr. 2017. (IF2017 = 0.112, ENGINEERING, MECHANICAL: 126 of 128, Q4)
  6. [15]     B. Kim, S. Choi, V. S. Pham, R. Kwak, and J. Han, “Energy efficiency enhancement of electromembrane desalination systems by local flow redistribution optimized for the asymmetry of cation/anion diffusivity,” Journal of Membrane Science, vol. 524, pp. 280–287, Feb. 2017. (IF2015 = 5.557, ENGINEERING, CHEMICAL: 7 of 135, Q1)
  7. [14]     R. Kwak, V. S. Pham, and J. Han, “Sheltering the perturbed vortical layer of electroconvection under shear flow,” Journal of Fluid Mechanics, vol. 813, pp. 799–823, Feb. 2017. (IF2015 = 2.51, MECHANICS: 17 of 135, Q1)
  8. [13]     T. V. Vu and J. C. Wells, “Numerical simulations of solidification around two tandemly-arranged circular cylinders under forced convection,” Int. J. Multiphase Flow, vol. 89, pp. 331–344, Mar. 2017. (IF2015 = 2.25, MECHANICS: 23 of 135, Q1)

2016

  1. [12]     V. Dinh Quy, N. Van Sy, D. Tan Hung, and V. Quoc Huy, “Wind tunnel and initial field tests of a micro generator powered by fluid-induced flutter,” Energy for Sustainable Development, vol. 33, pp. 75–83, Aug. 2016. (IF2015 = 1.495, ENERGY & FUELS: 37 of 88, Q2)
  2. [11]     N. Van He, K. Mizutani, and Y. Ikeda, “Reducing air resistance acting on a ship by using interaction effects between the hull and accommodation,” Ocean Engineering, vol. 111, pp. 414–423, Jan. 2016. (IF2014 = 1.351, ENGINEERING, MARINE: 1 of 14, Q1)
  3. [10]     X. Tran, H. Dao, and K. Tran, “A new mathematical model of friction for pneumatic cylinders,” Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, vol. 230, no. 14, pp. 2399–2412, Aug. 2016. (IF2015 = 0.73, ENGINEERING, MECHANICAL: 96 of 132, Q3)
  4. [9]       S. V. Pham, H. Kwon, B. Kim, J. K. White, G. Lim, and J. Han, “Helical vortex formation in three-dimensional electrochemical systems with ion-selective membranes,” Phys. Rev. E, vol. 93, no. 3, p. 033114, Mar. 2016. (IF2014 = 2.288, PHYSICS, MATHEMATICAL: 5 of 54, Q1)
  5. [8]       T. Dinh et al., “Environment-friendly carbon nanotube based flexible electronics for noninvasive and wearable healthcare,” J. Mater. Chem. C, vol. 4, no. 42, pp. 10061–10068, Oct. 2016.
  6. [7]   T. Soriano, N. V. Hien, K. M. Tuan, and T. V. Anh, “An object-unified approach to develop controllers for autonomous underwater vehicles,” Mechatronics, vol. 35, pp. 54–70, May 2016. (IF2014 = 1.726, ENGINEERING, MECHANICAL: 29 of 130, Q1)
  7. [6]       L. A. TuanN. T. Luong, and K. N. Ishihara, “Low-Temperature Catalytic Performance of Ni-Cu/Al2O3 Catalysts for Gasoline Reforming to Produce Hydrogen Applied in Spark Ignition Engines,” Catalysts, vol. 6, no. 3, p. 45, Mar. 2016. (IF2014 = 1.901, CHEMISTRY, PHYSICAL: 77 of 139, Q3)
  8. [5]       T. V. Vu, A. V. Truong, N. T. B. Hoang, and D. K. Tran, “Numerical investigations of solidification around a circular cylinder under forced convection,” J Mech Sci Technol, vol. 30, no. 11, pp. 5019–5028, Nov. 2016. (IF2015 = 0.761, ENGINEERING, MECHANICAL: 93 of 132, Q3)
  9. [4]       T. V. Vu, “Numerical simulation of inward solidification with volume change in cylindrical containers,” J. Chem. Eng. Jpn., vol. 49, no. 10, pp. 904–908, Oct. 2016. (IF2015 = 0.761, ENGINEERING, CHEMICAL: 108 of 135, Q4)

2015

  1. [3]      T. V. Vu, G. Tryggvason, S. Homma, and J. C. Wells, “Numerical investigations of drop solidification on a cold plate in the presence of volume change,” Int. J. Multiphase Flow, vol. 76, pp. 73–85, Nov. 2015. (IF2014 = 2.061, MECHANICS: 23 of 137, Q1)

2014

  1. [2]      X. Tran, W. Khaing, H. Endo, and H. Yanada, “Effect of friction model on simulation of hydraulic actuator,” Proceedings of the IMechE, vol. 228, no. 9, pp. 690–698, Oct. 2014. (IF2013 = 0.783, AUTOMATION & CONTROL SYSTEMS: 43 of 59, Q3)
  2. [1]      Q. Vu, D. Halm, and Y. Nadot, “High cycle fatigue of 1045 steel under complex loading: Mechanisms map and damage modelling,” International Journal of Damage Mechanics, vol. 23, no. 3, pp. 377–410, Apr. 2014. (IF2012 = 1.747, MECHANICS: 28 of 135, Q1)

 

Publications from 2012 to 2014

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