Gunawan Nugroho

Personal Information

Name : Gunawan Nugroho, S.T, M.T, Ph.D
NIDN : 0027117701
NIP : 197711272002121002
Position : Associate Professor (Head of Laboratory of Energy Engineering and Environmental Conditioning)
Email : gunawan@ep.its.ac.id
Laboratory : Laboratory of Energy Engineering and Environmental Conditioning
ORCID ID : https://orcid.org/0000-0001-7032-8210
Personal Website :
Reserach Interest : 1. Analysis of Fluid Dynamics and Heat Transfer Equations
2. Analytical Solutions and Qualitative Analysis of Nonlinear Differential Equations
3. Turbomachinery and Optimization of Energy Systems
4. Complex Systems
Research Page : Google Scholar | SINTA | Scopus | ResearchGate
Curriculum Vitae : (Download)

Education

  1. Departemen Teknik Fisika (ST), Institut Teknologi Sepuluh Nopember, Indonesia, 2001.
    Analisis Aerodinamika Pada Aliran Melalui Silinder Diam dan Diputar Secara Teoritis Dan Eksperimen“,
    Pembimbing: Ir. Soewarso, MSc, Prof. Dr. Ing. Herman Sasongko
  2. Departemen Teknik Mesin (MT), Institut Teknologi Sepuluh Nopember, Indonesia, 2005.
    Studi Aliran Tiga Dimensi Melalui Sambungan Airfoil/Pelat Datar Dengan Variasi Clearance Dan Permukaan Bawah“,
    Pembimbing: Prof. Dr. Ing. Herman Sasongko
  3. Ph. D, Department of Mechanical Engineering, Universiti Teknologi Petronas, Malaysia, 2010.
    Classes and Properties of Exact Solutions to the Three-Dimensional Incompressible Navier-Stokes Equations
    Supervisors: Dr. Zainal Ambri Abdul Karim & Dr. Ahmed Maher Said Ali

(Selected) Publications

  1. Biyanto, T. R., Fibrianto, H. Y., Nugroho, G., Hatta, A. M., Listijorini, E., Budiati, T., & Huda, H. (2016, June). Duelist algorithm: an algorithm inspired by how duelist improve their capabilities in a duel. In International Conference on Swarm Intelligence (pp. 39-47). Springer, Cham.
  2. Nugroho, G., Ali, A. M., & Karim, Z. A. (2009). Toward a new simple analytical formulation of Navier-Stokes equationsWorld Academy of Science, Engineering and Technology39, 197-201.
  3. Hamidah, N. L., Wang, F. M., & Nugroho, G. (2019). The understanding of solid electrolyte interface (SEI) formation and mechanism as the effect of flouro‐o‐phenylenedimaleimaide (F‐MI) additive on lithium‐ion batterySurface and Interface Analysis51(3), 345-352.
  4. Biyanto, T. R., Gonawan, E. K., Nugroho, G., Hantoro, R., Cordova, H., & Indrawati, K. (2016). Heat exchanger network retrofit throughout overall heat transfer coefficient by using genetic algorithm. Applied Thermal Engineering94, 274-281.
  5. Nugroho, G., Ali, A. M., & Karim, Z. A. A. (2009). On a special class of analytical solutions to the three-dimensional incompressible Navier–Stokes equationsApplied Mathematics Letters22(11), 1639-1644.
  6. Biyanto, T. R., Prasetya, H. E. G., Bayuaji, R., Nugroho, G., & Soehartanto, T. (2015). Design plant-wide control to waste heat recovery generation on cement industry based HYSYSProcedia Computer Science72, 170-177.
  7. Hamidah, N. L., Nugroho, G., & Wang, F. M. (2016). Electrochemical analysis of electrolyte additive effect on ionic diffusion for high-performance lithium ion batteryIonics22(1), 33-41.
  8. Nugroho, G., Ali, A. M., & Karim, Z. A. A. (2010). A class of exact solutions to the three-dimensional incompressible Navier–Stokes equationsApplied mathematics letters23(11), 1388-1396.
  9. Nugroho, G., Darwito, P. A., Wahyuono, R. A., & Raditya, M. (2021). On the Generalized Simplest Equations: Toward the Solution of Nonlinear Differential Equations with Variable CoefficientsRecent Developments in the Solution of Nonlinear Differential Equations, 319.
  10. Arsana, I. M., Muhimmah, L. C., Nugroho, G., & Wahyuono, R. A. (2021). Enhanced Heat Transfer Effectiveness Using Low Concentration SiO2–TiO2 Core–Shell Nanofluid in a Water/Ethylene Glycol MixtureJournal of Engineering Physics and Thermophysics94(2), 423-430.

Teaching Courses

1 Engineering Thermodynamics
2 Fluid Mechanics
3 Mass and Heat Transfer
4 Engineering Mathematics
5 Energy Conversion and Conservation System Engineering
6 Thermal Comfort System Engineering
7 Aerodynamics
8 CFD (Computational Fluid Dynamics)
9 Turbomachinery
10 Energy Economics
11 Optimization of Energy Systems
12 Energy Modelling

Open Position

– Currently no open position