Add to ORKGThe reactor material strongly affects coke formation during steam cracking of hydrocarbons. Therefore, in the past decade several specialized reactor materials have been developed that have proven to be efficient in reducing coke formation for ethane steam cracking. However, their beneficial anticoking properties are questioned when heavier feedstocks such as naphtha are cracked. Therefore, the effect of the composition of the reactor material has been investigated for ethane and naphtha cracking in an electrobalance setup under industrially relevant conditions. A significant reduction of coke formation is obtained for specialized alloys compared to typical Fe-Cr-Ni heat resistant steels when a sulfur-free naphtha is cracked. A thin layer o...
Steam cracking of straight-run naphtha from Romashkino crude oil was investigated in quartz and stai...
The naphtha cracking process experiences problems such as fouling in the cracked gas compressor, and...
Ethylene, the most-produced building block in the petrochemical industry, is produced using thermal ...
The reactor material strongly affects coke formation during steam cracking of hydrocarbons. Therefor...
Although steam cracking is a mature technology, mitigation of coke formation remains one of the main...
An experimental study of the coking tendency of nine different materials was carried out in a quartz...
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...
An experimental study of the coking tendency of nine different materials was carried out in a quartz...
25Cr-35Ni base alloys are the most frequently used materials for steam cracking reactors. The influe...
A pilot unit for steam cracking equipped with a transfer line heat exchanger (TLE) that allows for t...
A novel catalytic coating that converts coke to carbon oxides through a reaction with steam has been...
Alloy composition and morphology of the inner wall of steam cracking reactors are well-known key fac...
The coking tendency under steam cracking conditions of CoatAlloy, a newly developed multilayered Al ...
In this study, the production of ethylene and hydrogen is studied via the thermal cracking of ethyle...
Steam cracking of straight-run naphtha from Romashkino crude oil was investigated in quartz and stai...
The naphtha cracking process experiences problems such as fouling in the cracked gas compressor, and...
Ethylene, the most-produced building block in the petrochemical industry, is produced using thermal ...
The reactor material strongly affects coke formation during steam cracking of hydrocarbons. Therefor...
Although steam cracking is a mature technology, mitigation of coke formation remains one of the main...
An experimental study of the coking tendency of nine different materials was carried out in a quartz...
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...
An experimental study of the coking tendency of nine different materials was carried out in a quartz...
25Cr-35Ni base alloys are the most frequently used materials for steam cracking reactors. The influe...
A pilot unit for steam cracking equipped with a transfer line heat exchanger (TLE) that allows for t...
A novel catalytic coating that converts coke to carbon oxides through a reaction with steam has been...
Alloy composition and morphology of the inner wall of steam cracking reactors are well-known key fac...
The coking tendency under steam cracking conditions of CoatAlloy, a newly developed multilayered Al ...
In this study, the production of ethylene and hydrogen is studied via the thermal cracking of ethyle...
Steam cracking of straight-run naphtha from Romashkino crude oil was investigated in quartz and stai...
The naphtha cracking process experiences problems such as fouling in the cracked gas compressor, and...
Ethylene, the most-produced building block in the petrochemical industry, is produced using thermal ...