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Công bố khoa học

Bài báo ISI/Scopus (2014 – )

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2018

  1. [43]     I. L. Ngo, H. Jang, C. Byon, and B. J. Lee, “Experimental study on thermal performance of SMD-LED chips under the effects of electric wire pattern and LED arrangement,” International Journal of Heat and Mass Transfer, vol. 127, pp. 746–757, Dec. 2018 (IF2017 = 3.891, MECHANICS: 9 of 134, Q1).
  2. [42]     V. N. Duy and T. V. Vu, “A numerical study of a liquid drop solidifying on a vertical cold wall,” International Journal of Heat and Mass Transfer, vol. 127, pp. 302–312, Dec. 2018 (IF2017 = 3.891, MECHANICS: 9 of 134, Q1).
  3. [41]     F. Dal Cero Coelho, Q. H. Vu, D. Halm, and Y. Nadot, “Fatigue life modelling under variable amplitude multiaxial loading: comparison between fatigue criterion and incremental modelling,” International Journal of Fatigue, vol. 117, pp. 461–470, Dec. 2018 (IF2017=3.132, ENGINEERING, MECHANICAL: 19 of 128, Q1).
  4. [40]     A. T. Hoang and M. T. Pham, “Influences of heating temperatures on physical properties, spray characteristics of bio-oils and fuel supply system of a conventional diesel engine,” International Journal on Advanced Science, Engineering and Information Technology, vol. 8, no. 5, pp. 2231-2240–2240, Oct. 2018 (SCOPUS).
  5. [39]     T. L. Anh, V. N. Duy, H. K. Thi, and H. N. Xa, “Experimental Investigation on Establishing the HCCI Process Fueled by N-Heptane in a Direct Injection Diesel Engine at Different Compression Ratios,” Sustainability, vol. 10, no. 11, p. 3878, Oct. 2018 (IF2017 = 2.075, ENVIRONMENTAL SCIENCES: 120 of 214, Q2).
  6. [38]     M. T. Pham, A. T. Hoang, A. T. Le, A. R. M. S. Al-Tawaha, V. H. Dong, and V. V. Le, “Measurement and Prediction of the Density and Viscosity of Biodiesel Blends,” International Journal of Technology, vol. 9, no. 5, p. 1015, Oct. 2018. (SCOPUS)
  7. [37]     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, vol. 32(10), pp. 4665–4673, Oct. 2018 (IF2017 = 1.194, ENGINEERING, MECHANICAL: 85 of 128, Q3).
  8. [36]     A. T. Hoang and A. T. Le, “A review on deposit formation in the injector of diesel engines running on biodiesel,” Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, pp. 1–16, Sep. 2018 (IF2017 = 0.555, ENERGY & FUELS : 90 of 97, Q4).
  9. [35]     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).
  10. [34]     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)
  11. [33]     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)
  12. [32]     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)
  13. [31]     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)
  14. [30]     T. V. Vu, “Axisymmetric Forced Convection Solidification of a Liquid Drop on a Cold Plate,” Int. J. Multiphase Flow, vol. 107, pp. 104–115, Jun. 2018 (IF2017 = 2.592, MECHANICS: 26 of 134, Q1).
  15. [29]     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)
  16. [28]     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)
  17. [27]     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)
  18. [26]     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)
  19. [25] D. H. Phuc, P. Rasincharoensak, and M. Nagai, “Study on driver model for hybrid truck based on driving simulator experimental results,” IATSS Research, vol. 42, no. 1, pp. 18–23, Apr. 2018. (SCOPUS)
  20. [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)
  21. [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)
  22. [22]     K. N. Duc, H. 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)
  23. [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)

 

Công bố khoa học giai đoạn 2012 – 2014

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