Dendy Adanta
Dosen Jurusan Teknik Mesin
Universitas Sriwijaya
Dr. Dendy Adanta, S.Pd., M.T., IPP.
Email :
dendyadanta[at]ft.unsri.ac.id
dendyadanta[at]ymail.com
Research interest: Hydropower, wind turbine, CFD, turbomachinery, turbulence model
Dendy Adanta was born in South Sumatera, Indonesia, on June 5th, 1993. Degree: M.Eng. (2017) in Mechanical Engineering from Universitas Indonesia, Jakarta – Indonesia. Dr. (2020) in Mechanical Engineering, Universitas Indonesia, Jakarta – Indonesia.
He has been working as a lecturer for the Department of Mechanical Engineering, Faculty of Engineering, Universitas Sriwijaya, South Sumatera, Indonesia. Dr. Dendy Adanta, S.Pd., M.T., IPP. some publication had written in: International Journal of Technology; International Journal on Advanced Science, Engineering and Information Technology; CFD Letters; Journal of Advanced Research in Fluid Mechanics and Thermal Science; Energy Reports; Journal of Mechanical Engineering and Sciences; Engineering Letter; International Energy Journal; International Journal of Fluid Machinery and Systems; Journal of the Brazilian Society of Mechanical Sciences and Engineering; Malaysian Journal of Medicine and Health Sciences; and several seminar proceedings. Dr. Dendy Adanta, S.Pd., M.T., IPP. is memberships in professional societies in the International Association of Engineers (IAENG), Asosiasi Peneliti Sriwijaya (APS), Asosiasi Peneliti Sriwijaya (APS), and The International Association for Hydro-Environment Engineering and Research (IAHR).
Education
- S.Pd., Mechanical Engineering Education, Universitas Sriwijaya-Indonesia, 2015
- M.T., Mechanical Engineering, Universitas Indonesia-Indonesia, 2017
- Dr., Mechanical Engineering, Universitas Indonesia-Indonesia, 2020
Academic Experiences:
- Universitas Sriwijaya, Lecturer, Department of Mechanical Engineering, 2019-Present, Full Time
Current membership in profesional organizations:
- The International Association of Engineers (IAENG), 2019 – Present
- Asosiasi Peneliti Sriwijaya (APS), 2020 – Present
- The Institution of Engineers Indonesia (PII), 2021 – Present
- The International Association for Hydro-Environment Engineering and Research (IAHR), 2020 – Present
Service activities (within and outside of the institution):
- Engineering Consultants, Projects under Business Management Agency – Universitas Sriwijaya, 2022 – Present
- Editor in Chief CFD Letters (ISSN: 2810-1363)
- Advisory International Editors Board AUSTENIT (e-ISSN: 2622-7649)
Publications (Most important from past 5 years)
- Performance of undershot waterwheel in pico scale with difference in the blades number [2022].
- Performance of Pico Scale Turgo Turbine in Difference the Nozzle Diameter [2022].
- Optimization of inverse-Prandtl of Dissipation in standard k-ε Turbulence Model for Predicting Flow Field of Crossflow Turbine [2022].
- Enhancement of syngas production via co-gasification and renewable densified fuels (RDF) in an open-top downdraft gasifier: Case study of Indonesian waste [2021].
- Feasibility Study of PVC Pipes as Vertical Axis Wind Turbines Type Savonius Bucket for Remote Areas Application [2021].
- Feasibility of Geoscience to Determine the Location of Micro-hydro Power Potential for Rural Areas [2021].
- Computational Analysis of Flow Field on Cross-Flow Hydro Turbines [2021].
- Feasibility analysis of a pico-scale turgo turbine bucket using coconut shell spoons for electricity generation in remote areas in Indonesia [2020].
- Approach for a Breastshot Waterwheel Numerical Simulation Methodology Using Six-Degrees of Freedom [2020].
- The Effect of Wheel and Nozzle Diameter Ratio on the Performance of a Turgo Turbine with Pico Scale [2020].
- The Effect of Channel Slope Angle on Breastshot Waterwheel Turbine Performance by Numerical Method [2020].
- The effect of blade height and inlet height in a straight-blade undershot waterwheel turbine by computational method [2020].
- Computational Methods for Predicting a Pico-hydro Cross-flow Turbine Performance [2020].
- Effect of Blade Depth on the Energy Conversion Process in Crossflow Turbine [2020].
- CFD simulation methodology of cross-flow turbine with six degree of freedom feature [2020].
- The effect of basin geometry on gravitational vortex hydropower [2020].
- Performance of breastshot waterwheel in run of river conditions [2020].
- Comparison of plate and aerofoil blade performance in open-flume turbines [2020].
- Open flume turbine simulation method using six-degrees of freedom feature [2020].
- Effect of tangential absolute velocity at outlet on open flume turbine performance [2020].
Research Experiences (Most important from past 5 years)
- RISTEKDIKTI: Efisiensi Maksimum Turbin Piko Hidro untuk Elektrifikasi di Daerah Terpencil [2016-2018].
- Universitas Indonesia: Pengaruh Aliran Turbulen Terhadap Performa Turbin Piko Hidro Jenis Crossflow [2018].
- Universitas Indonesia: Turbin Turgo untuk Elektrifikasi di Daerah Terpencil Skala Piko Hidro Menggunakan Material Lokal [2018].
- CCR Smart City: Analysis of the Effect of the Overflow Leakage Phenomenon on Archimedes Turbine Efficiency [2018].
- Universitas Indonesia: Karakterisasi dan Investigasi Turbin Piko Hidro Jenis Turgo, Vortex dan Crossflow untuk Elektrfikasi di Daerah Terpencil [2019].
- Universitas Indonesia: Investigasi Medan Aliran pada Turbin Crossflow Skala Piko untuk Aplikasi CFD [2019].
- Universitas Indonesia: Analisa Komputasional Aliran Turbulen pada Turbin Air Jenis Crossflow [2019].
- RISTEKDIKTI: Optimasi konstanta Bachelor pada Model Turbulen RNG k-ɛ untuk Aplikasi CFD di Turbin Mikro Hidro Tipe Cross-flow [2019].
- RISTEKDIKTI: Optimasi Konstanta suku Produksi turbulen pada Model Turbulen k-ɛ Standard untuk Aplikasi CFD di Turbin Mikro Hidro Jenis Crossflow [2019 – 2020].
- RISTEKDIKTI: Metode Manufaktur dan Perancangan Sudu Turbin Open Flume skala Piko untuk Meningkatkan Performa [2019 – 2020].
- RISTEKDIKTI: Analisis Model Turbulen untuk Metode NUmerik dan Modifikasi Rumah Serta Sudu Turbin Arus [2019 – 2020].
- Universitas Sriwijaya: Karakterisasi Material Biokomposit Filamen 3d Printer Tipe Fdm Berbasis Polylactic-Acid Dan Magnesium Untuk Fabrikasi Implan Perancah Tulang [2020].
- Universitas Sriwijaya: Perbandingan Material Sudu Turbin Turgo Skala Piko Menggunakan Batok Kelapa Dengan Stainless-Steel [2020].
- Universitas Sriwijaya: Optimasi Turbin Turgo Skala Piko Menggunakan Response Surface Method untuk Elektrifikasi di Daerah Terpencil di Indonesia [2021].
- LPDP: Investigasi Konstanta Bachelor dan Kolmogorov Model Turbulen k-epsilon standar untuk Turbin Crossflow Skala Piko [2021].
- KEMDIKBUD: Modifikasi Upper Sudu Turbin Crossflow skala Piko untuk Peningkatan Performa dan Optimasi Model Turbulen k-epsilon [2022 – 2024].
- Universitas Sriwijaya: Investigasi Konfigurasi Bentuk Sudu untuk Memaksimalkan Performan Turbin Crossflow menggunakan komputasional dan eksperimental [2022].
