Add to ORKGAlloy composition and morphology of the inner wall of steam cracking reactors are well-known key factors that affect their coking tendency. The effect of surface roughness on the coking tendency remains uncharted to date and has been studied here for a 35/25 Ni/Cr wt % alloy in a quartz jet stirred reactor equipped with an electro-balance under coil outlet industrially relevant ethane steam cracking conditions: Tgas phase = 1173 K, Ptot = 0.1 MPa, and XC2H6 = 70%. Up to 6 times higher initial coking rates have been observed during cyclic aging in an Rα surface roughness range of 0.15−7 μm, and cyclic aging proved to have an effect mainly on the catalytic coking behavior. No effect was observed on the asymptotic coking rates. Scanning electr...
Although coke formation is one of the most important problems that the steam cracking process still ...
The steam cracking reactions are always accompanied with the formation of coke which deposits on the...
Ethylene, the most-produced building block in the petrochemical industry, is produced using thermal ...
Alloy composition and morphology of the inner wall of steam cracking reactors are well-known key fac...
25Cr-35Ni base alloys are the most frequently used materials for steam cracking reactors. The influe...
An experimental study of the coking tendency of nine different materials was carried out in a quartz...
An experimental study of the coking tendency of nine different materials was carried out in a quartz...
Although steam cracking is a mature technology, mitigation of coke formation remains one of the main...
25Cr-35Ni base alloys are the most frequently used materials for steam cracking reactors. The influe...
Coke inhibition of reactor materials is one of the major research areas in the field of steam cracki...
Thermal cracking is always accompanied by coke formation, which becomes deposited on the wall and li...
The reactor material strongly affects coke formation during steam cracking of hydrocarbons. Therefor...
The service time of an industrial cracker is strongly dependent on the long-term coking behavior and...
Hydrocarbon steam cracking serves as the primary process for ethylene production. A major operating ...
The selection of the reactor material with the lowest coking tendency can result in substantial econ...
Although coke formation is one of the most important problems that the steam cracking process still ...
The steam cracking reactions are always accompanied with the formation of coke which deposits on the...
Ethylene, the most-produced building block in the petrochemical industry, is produced using thermal ...
Alloy composition and morphology of the inner wall of steam cracking reactors are well-known key fac...
25Cr-35Ni base alloys are the most frequently used materials for steam cracking reactors. The influe...
An experimental study of the coking tendency of nine different materials was carried out in a quartz...
An experimental study of the coking tendency of nine different materials was carried out in a quartz...
Although steam cracking is a mature technology, mitigation of coke formation remains one of the main...
25Cr-35Ni base alloys are the most frequently used materials for steam cracking reactors. The influe...
Coke inhibition of reactor materials is one of the major research areas in the field of steam cracki...
Thermal cracking is always accompanied by coke formation, which becomes deposited on the wall and li...
The reactor material strongly affects coke formation during steam cracking of hydrocarbons. Therefor...
The service time of an industrial cracker is strongly dependent on the long-term coking behavior and...
Hydrocarbon steam cracking serves as the primary process for ethylene production. A major operating ...
The selection of the reactor material with the lowest coking tendency can result in substantial econ...
Although coke formation is one of the most important problems that the steam cracking process still ...
The steam cracking reactions are always accompanied with the formation of coke which deposits on the...
Ethylene, the most-produced building block in the petrochemical industry, is produced using thermal ...