New process for producing methanol from coke oven gas by means of CO2 reforming. Comparison with conventional process

Bermúdez, J.M.; Ferrera-Lorenzo, N.; Luque, Susana; Arenillas, A.; Menéndez, J.Á.

doi:10.1016/j.fuproc.2013.06.006

Cited by 53 publications

(22 citation statements)

References 27 publications

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“…Yang et al 302 proposed a coal-to-olefins system that recycled CO 2 into both the gasifier and the dry reforming unit, considering effects of the CO 2 recycling distribution between the two paths on system performance. [310][311][312][313][314][315] In summary, CO 2 recycle coupled with CH 4 -rich gas in coal chemical engineering is a good option for dealing with deficiencies such as low efficiency and high investment cost typically associated with CO 2 control and reduction. Kok Siew Ng et al 309 modified a conventional coal IGCC with CCS system into a polygeneration system wherein CO 2 from the fuel gas of the gas turbine is reused into syngas generation through tri-reforming.…”

Section: Co 2 Recycle Coupled With Ch 4 -Rich Gas In Coal Chemical Enmentioning

confidence: 99%

Carbon cycle in advanced coal chemical engineering

Xie

2015

Chem. Soc. Rev.

145

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This review summarizes how the carbon cycle occurs and how to reduce CO2 emissions in highly efficient carbon utilization from the most abundant carbon source, coal. Nowadays, more and more attention has been paid to CO2 emissions and its myriad of sources. Much research has been undertaken on fossil energy and renewable energy and current existing problems, challenges and opportunities in controlling and reducing CO2 emission with technologies of CO2 capture, utilization, and storage. The coal chemical industry is a crucial area in the (CO2 value chain) Carbon Cycle. The realization of clean and effective conversion of coal resources, improving the utilization and efficiency of resources, whilst reducing CO2 emissions is a key area for further development and investigation by the coal chemical industry. Under a weak carbon mitigation policy, the value and price of products from coal conversion are suggested in the carbon cycle.

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Section: Co 2 Recycle Coupled With Ch 4 -Rich Gas In Coal Chemical Enmentioning

confidence: 99%

Carbon cycle in advanced coal chemical engineering

Xie

2015

Chem. Soc. Rev.

145

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“…The main components of blast furnace and converter gases are carbon dioxide, carbon monoxide and nitrogen. Coke oven gas mostly contains hydrogen and methane [8]. After gas conditioning including purification the exhaust gases can act as a possible feed gas for the methanol synthesis.…”

Section: Introductionmentioning

confidence: 99%

Methanol Synthesis from Industrial CO2 Sources: A Contribution to Chemical Energy Conversion

et al. 2017

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catalyst can operate in a stable way without the presence of carbon monoxide in the feed, which means that increased water contents in the product gas cannot destroy the catalyst's performance completely. The presence of benzene in the feed does not lead to a deactivation of the catalyst. With these findings methanol production starting from exhaust gases from steel mills seems to become an interesting alternative for sustainable methanol production.Abstract CO 2 hydrogenation as a route for the chemical energy storage over a commercial Cu/ZnO/Al 2 O 3 catalyst has been studied. To check the optimal conditions for an efficient methanol production the influence of temperature and space velocity on the catalytic performance has been demonstrated. Time-on-stream measurements in the absence and the presence of benzene in the gas feed mixture were performed to investigate the possibility to use alternative carbon sources, which contain traces of aromatics. The

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“…Research from Bermúdez et al indicates it is possible to produce methanol from COG and a preferable production route compared to other valorization paths for COG . However, synthesis gas conditioning is not trivial in this case.…”

Section: Future Research Applicationsmentioning

confidence: 99%

A Review of Mathematical Programming in Integrated Iron‐ and Steelmaking

Beek

2018

Chemie Ingenieur Technik

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This paper presents and reviews the current application fields of mathematical programming in integrated iron‐ and steelmaking research. Three different fields of mathematical programming applications are identified and discussed: unit operation optimization, by‐product gas distribution, and integrated system optimization and design. Based on current research activities in the iron and steel industry, development trends for mathematical programming in integrated iron‐ and steelmaking research, such as the cogeneration of chemicals aided by renewable energy grid integration, are presented.

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New process for producing methanol from coke oven gas by means of CO2 reforming. Comparison with conventional process

Cited by 53 publications

References 27 publications

Carbon cycle in advanced coal chemical engineering

Carbon cycle in advanced coal chemical engineering

Methanol Synthesis from Industrial CO2 Sources: A Contribution to Chemical Energy Conversion

A Review of Mathematical Programming in Integrated Iron‐ and Steelmaking

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