Separation of ethylene from the effluent gas of oxidative coupling has been a challenging issue for several years. In a combined process of oxidative coupling and reforming of methane, reactive separation of ethylene via alkylation of benzene to ethylbenzene (EB) is a promising option. Ethylene was successfully converted to the useful chemical intermediate EB using ZSM-5. Yields of EB up to 90% were found at more than 95% conversion and more than 90% selectivity at 360 °C. Methane and ethane present in the feed were not converted and can be used for steam reforming in the proposed reaction concept. None of the additional components present in the effluent gas of oxidative coupling (CO, CO2, CH4, C2H6 and H2O) influences activity or selectiv...
Summarization: It was found that methane can be oxidatively coupled to ethylene with an ethylene yie...
Increased availability of methane from shale gas and stranded gas deposits in the recent years may f...
The effect of addition of ethane and ethylene (C2) on methane coupling at 1000 °C was investigated. ...
Separation of ethylene from the effluent gas of oxidative coupling has been a challenging issue for ...
Methane, which is the principal component of natural gas reserves, is currently being used for home ...
Methane, which is the principal component of natural gas reserves, is currently being used for home ...
Summarization: Methane was oxidatively coupled to ethylene with very high yield in a novel gas recyc...
Methane was oxidatively coupled to ethylene with very high yield in a novel gas recycle reactor-sepa...
Summarization: A novel gas-recycle electrocatalytic or catalytic reactor-separator has been develope...
The aromatization reaction of methane on Mo/HZSM-5 catalysts has been studied by temperature program...
A novel industrial process was designed for the highly selective production of ethylbenzene. It comp...
A novel industrial process was designed for the highly selective production of ethylbenzene. It comp...
A novel reactor concept with autothermal operation is presented for the simultaneous production of e...
The effect of residence time on the selectivity of a MgO catalyst for the formation of ethene in the...
A new process has been suggested for converting natural gas to ethylene by combining oxidative coupl...
Summarization: It was found that methane can be oxidatively coupled to ethylene with an ethylene yie...
Increased availability of methane from shale gas and stranded gas deposits in the recent years may f...
The effect of addition of ethane and ethylene (C2) on methane coupling at 1000 °C was investigated. ...
Separation of ethylene from the effluent gas of oxidative coupling has been a challenging issue for ...
Methane, which is the principal component of natural gas reserves, is currently being used for home ...
Methane, which is the principal component of natural gas reserves, is currently being used for home ...
Summarization: Methane was oxidatively coupled to ethylene with very high yield in a novel gas recyc...
Methane was oxidatively coupled to ethylene with very high yield in a novel gas recycle reactor-sepa...
Summarization: A novel gas-recycle electrocatalytic or catalytic reactor-separator has been develope...
The aromatization reaction of methane on Mo/HZSM-5 catalysts has been studied by temperature program...
A novel industrial process was designed for the highly selective production of ethylbenzene. It comp...
A novel industrial process was designed for the highly selective production of ethylbenzene. It comp...
A novel reactor concept with autothermal operation is presented for the simultaneous production of e...
The effect of residence time on the selectivity of a MgO catalyst for the formation of ethene in the...
A new process has been suggested for converting natural gas to ethylene by combining oxidative coupl...
Summarization: It was found that methane can be oxidatively coupled to ethylene with an ethylene yie...
Increased availability of methane from shale gas and stranded gas deposits in the recent years may f...
The effect of addition of ethane and ethylene (C2) on methane coupling at 1000 °C was investigated. ...