Publications: MR Emre Ustun
Soyler I, Üstün CE, Paykani A, Jiang X, Karimi N
(
2026
)
.
Machine learning-enabled uncertainty quantification for thermo-catalytic reactors: A study on fugitive methane oxidation in monolith reactors
.
Fuel
vol.
407
,
Üstün CE, Ünal İ, Özbey N, Kılıç NB, Erdoğan N, Altay Ö, Tutar M
(
2025
)
.
Multi-objective aerodynamic design optimization of a new engine intake electromagnetic wave blocker
.
Physics of Fluids
vol.
37
,
(
7
)
Üstün CE, De Freitas RDSM, Okafor EC, Shahbakhti M, Jiang X, Paykani A
(
2025
)
.
Machine Learning Applications for Predicting Fuel Ignition and Flame Properties: Current Status and Future Perspectives
.
Energy & Fuels
vol.
39
,
(
28
)
13281
-
13314
.
Üstün CE, Paykani A
(
2025
)
.
On-the-fly uncertainty-aware deep ensembles for stiff chemical kinetics
.
Proceedings of the Combustion Institute
vol.
41
,
Mashruk S, Shi H, Mazzotta L, Ustun CE, Aravind B, Meloni R, Alnasif A, Boulet E et al.
(
2024
)
.
Perspectives on NO X Emissions and Impacts from Ammonia Combustion Processes
.
Energy & Fuels
vol.
38
,
(
20
)
19253
-
19292
.
Üstün CE, Paykani A
(
2024
)
.
Probabilistic machine learning framework for chemical source term integration with Gaussian Processes: H 2 /air auto-ignition case
.
International Journal of Hydrogen Energy
vol.
81
,
47
-
55
.
Tutar M, Üstün CE, Mutlu H
(
2024
)
.
A thermodynamic computational model analysis of a newly designed Tri-Rotor (T-R) volume air compressor
.
Thermal Science and Engineering Progress
vol.
53
,
Üstün CE, Eckart S, Valera-Medina A, Paykani A
(
2024
)
.
Data-driven prediction of laminar burning velocity for ternary ammonia/hydrogen/methane/air premixed flames
.
Fuel
vol.
368
,
Üstün CE, Herfatmanesh MR, Valera-Medina A, Paykani A
(
2023
)
.
Applying machine learning techniques to predict laminar burning velocity for ammonia/hydrogen/air mixtures
.
Energy and AI
vol.
13
,
Tutar M, Üstün CE, Campillo-Robles JM, Fuente R, Cibrián S, Arzua I, Fernández A, López GA
(
2021
)
.
Optimized CFD modelling and validation of radiation section of an industrial top-fired steam methane reforming furnace
.
Computers & Chemical Engineering
vol.
155
,