Optimizing air distribution in floor and wall burners of an industrial steam cracking firebox: a CFD study

F Wéry, M Geerts, LA Vandewalle, PA Reyniers… - … Research and Design, 2023 - Elsevier
A 3D computational fluid dynamics model for an industrial scale steam cracking firebox is
combined with a 1D reactor model for the cracking process within the reactor coil. This …

Assessing the CO2 emission reduction potential of steam cracking furnace innovations via computational fluid dynamics: From high-emissivity coatings, over coil …

F Wéry, M Geerts, LA Vandewalle, PA Reyniers… - … Research and Design, 2023 - Elsevier
Accurate 3D modeling of steam cracking fireboxes is instrumental in the identification of the
strengths and weaknesses of a specific firebox. A 3D computational fluid dynamics model for …

Influence of key geometry parameters on heat transfer and flow resistance properties of toothed internal spiral piece cracking furnace tube

F Xu, D Zhang, L Zhang, S Bu, H Huang, Y Ji… - Applied Thermal …, 2022 - Elsevier
Strengthening the heat transfer technology of the furnace tube in the radiant section of the
cracking furnace is very important in the field of energy-saving and environmental protection …

Design of a Neuro‐Based Computing Paradigm for Simulation of Industrial Olefin Plants

SH Esmaeili-Faraj, B Vaferi, A Bolhasani… - Chemical …, 2021 - Wiley Online Library
A neuro‐based computing technique is used for simulation of olefin plants at industrial
scale. Artificial neural networks are applied to estimate the flow rate of the main products of …

Technical, Environmental, and Economic Analysis Comparing Low-Carbon Industrial Process Heat Options in US Poly (vinyl chloride) and Ethylene Manufacturing …

C Schoeneberger, JB Dunn… - Environmental Science & …, 2024 - ACS Publications
Electrification and clean hydrogen are promising low-carbon options for decarbonizing
industrial process heat, which is an essential target for reducing sector-wide emissions …

Estimation of the flow rate of pyrolysis gasoline, ethylene, and propylene in an industrial olefin plant using machine learning approaches

J Abdi, G Mazloom, F Hadavimoghaddam… - Scientific Reports, 2023 - nature.com
Light olefins, as the backbone of the chemical and petrochemical industries, are produced
mainly via steam cracking route. Prediction the of effects of operating variables on the …

Comparison on conventional and digital technology assisted design methodologies of process heater radiant section

S Chaudhari, KS Bhole, S Rane - International Journal on Interactive …, 2023 - Springer
Unawareness of appropriate process heater design method leads to insufficient accuracy in
calculations or overlook of important design parameters. It consequently results in …

Coke deposition and run length in industrial naphtha thermal cracking furnaces via a quasi‐steady state coupled CFD model

M Rezaeimanesh, SAA Ghoreyshi… - … Canadian Journal of …, 2023 - Wiley Online Library
Mathematical modelling of the thickness of the coke layer growing over months in
millisecond cracking reactors is a dilemma in computational fluid dynamics (CFD) …

Simultaneous energy and environment-based optimization and retrofit of TEG dehydration process: an industrial case study

Z Al Ani, AM Gujarathi, GR Vakili-Nezhaad - Process Safety and …, 2021 - Elsevier
Carbon dioxide emissions (CO 2) during the dehydration process of natural gas are of
important concerns as this gas negatively affects the climate and environment in general …

Exploration of new olefin production process: Effects of the addition of CO2 and H2O on n-heptane pyrolysis

H Li, J Zhang, Z Yang, W Zhang, Q Song… - Journal of Analytical and …, 2022 - Elsevier
In order to study the new cracking process characteristics of hydrocarbon feedstock to light
olefins by direct flue gas heating, the pyrolysis experiments of n-heptane in CO 2 and H 2 O …