Follow
Cihat Emre Üstün
Title
Cited by
Cited by
Year
Optimized CFD modelling and validation of radiation section of an industrial top-fired steam methane reforming furnace
M Tutar, CE Üstün, JM Campillo-Robles, R Fuente, S Cibrián, I Arzua, ...
Computers & Chemical Engineering 155, 107504, 2021
242021
Applying machine learning techniques to predict laminar burning velocity for ammonia/hydrogen/air mixtures
CE Üstün, MR Herfatmanesh, A Valera-Medina, A Paykani
Energy and AI 13, 100270, 2023
42023
Data-driven prediction of laminar burning velocity for ternary ammonia/hydrogen/methane/air premixed flames
CE Üstün, S Eckart, A Valera-Medina, A Paykani
Fuel 368, 131581, 2024
2024
Coupled CFD Modelling of a Top-fired Steam Methane Reforming Furnace
M Tutar, CE Ustun, JM Campillo-Robles, R Fuente, S Cibrián, I Arzua, ...
ICTEA: International Conference on Thermal Engineering 2023 (1), 2023
2023
Modelado Numérico, Análisis Termodinámico y Optimización de Hornos de Reformación de Metano a Vapor
CE Üstün
University of the Basque Country (UPV/EHU), 2021
2021
Computational Performance Analysis of a Rotary Type Tri-Rotor Air Compressor Undergoing a Polytropic Process
M Tutar, CE Üstün, H Mutlu
19th International Conference on Thermal Science and Engineering of Serbia …, 2019
2019
Data-Driven Prediction of Laminar Burning Velocity for Ternary Ammonia/Hydrogen/Methane/Air Premixed Flames
CE Üstün, S Eckart, A Valera-Medina, A Paykani
Hydrogen/Methane/Air Premixed Flames, 0
The system can't perform the operation now. Try again later.
Articles 1–7