A research into the thermodynamics of methanol to hydrocarbon (MTH): conflictions between simulated product distribution and experimental results

A research into the thermodynamics of methanol to hydrocarbon (MTH): conflictions between simulated product distribution and experimental results

Abstract Thermodynamic calculations and analysis were carried out for a rational understanding of the results from selected laboratory MTH reactions. Simulations without solid carbons (coke), CO, CO2 and light alkanes target on the yield of olefin and aromatic products, which has been found better r...

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Main Authors: B. Liu, B. Yao, S. Gonzalez-Cortes, V. L. Kuznetsov, M. AlKinany, S. A. Aldrees, Tiancun Xiao, Peter P. Edwards
Format: Article
Language:English
Published: SpringerOpen 2017-05-01
Series:Applied Petrochemical Research
Subjects:
Methanol to hydrocarbon
Hydrocarbon pool mechanism
Thermodynamic
Intra-conversion
Dwelling time
Online Access:http://link.springer.com/article/10.1007/s13203-017-0178-1
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spelling doaj-e02a344aa980485da116aa70e6271d4a2020-11-25T00:45:39ZengSpringerOpenApplied Petrochemical Research2190-55252190-55332017-05-0171556610.1007/s13203-017-0178-1A research into the thermodynamics of methanol to hydrocarbon (MTH): conflictions between simulated product distribution and experimental resultsB. Liu0B. Yao1S. Gonzalez-Cortes2V. L. Kuznetsov3M. AlKinany4S. A. Aldrees5Tiancun Xiao6Peter P. Edwards7State Key Laboratory of Heavy Oil Processing, China University of Petroleum (Beijing)Inorganic Chemistry Laboratory, Department of Chemistry, KACST-Oxford Petrochemical Research Centre (KOPRC), University of OxfordInorganic Chemistry Laboratory, Department of Chemistry, KACST-Oxford Petrochemical Research Centre (KOPRC), University of OxfordInorganic Chemistry Laboratory, Department of Chemistry, KACST-Oxford Petrochemical Research Centre (KOPRC), University of OxfordPetrochemical Research Institute, King Abdulaziz City for Science and TechnologyPetrochemical Research Institute, King Abdulaziz City for Science and TechnologyInorganic Chemistry Laboratory, Department of Chemistry, KACST-Oxford Petrochemical Research Centre (KOPRC), University of OxfordInorganic Chemistry Laboratory, Department of Chemistry, KACST-Oxford Petrochemical Research Centre (KOPRC), University of OxfordAbstract Thermodynamic calculations and analysis were carried out for a rational understanding of the results from selected laboratory MTH reactions. Simulations without solid carbons (coke), CO, CO2 and light alkanes target on the yield of olefin and aromatic products, which has been found better referenced to the real experimental observations that occur in time-on-stream (TOS). The confliction between simulated data and real experimental results is presumably ascribed to the limited dwelling time of products in the reaction system. Hydrocarbon pool based reactions donate olefins and methyl-benzenes as primary products in a continuous-flow MTH reaction; when the dwelling time of product extends intra-conversions (H2 transfers) between products would further adjust the composition of MTH yield, in which case alkanes and aromatic products (cokes precursors) increase. In the case of intra-conversions are ignored due to limited product dwelling time, thermodynamic calculation on Gibbs free energy change of selected sub reactions shows fairly close results to the real experimental data, which well supports the above explanations. This work highlights the importance of proper choosing target products and/or sub reactions for a rational thermodynamic prediction of MTH product distribution obtained in time-on-stream.http://link.springer.com/article/10.1007/s13203-017-0178-1Methanol to hydrocarbonHydrocarbon pool mechanismThermodynamicIntra-conversionDwelling time
collection DOAJ
language English
format Article
sources DOAJ
author B. Liu
B. Yao
S. Gonzalez-Cortes
V. L. Kuznetsov
M. AlKinany
S. A. Aldrees
Tiancun Xiao
Peter P. Edwards
spellingShingle B. Liu
B. Yao
S. Gonzalez-Cortes
V. L. Kuznetsov
M. AlKinany
S. A. Aldrees
Tiancun Xiao
Peter P. Edwards
A research into the thermodynamics of methanol to hydrocarbon (MTH): conflictions between simulated product distribution and experimental results
Applied Petrochemical Research
Methanol to hydrocarbon
Hydrocarbon pool mechanism
Thermodynamic
Intra-conversion
Dwelling time
author_facet B. Liu
B. Yao
S. Gonzalez-Cortes
V. L. Kuznetsov
M. AlKinany
S. A. Aldrees
Tiancun Xiao
Peter P. Edwards
author_sort B. Liu
title A research into the thermodynamics of methanol to hydrocarbon (MTH): conflictions between simulated product distribution and experimental results
title_short A research into the thermodynamics of methanol to hydrocarbon (MTH): conflictions between simulated product distribution and experimental results
title_full A research into the thermodynamics of methanol to hydrocarbon (MTH): conflictions between simulated product distribution and experimental results
title_fullStr A research into the thermodynamics of methanol to hydrocarbon (MTH): conflictions between simulated product distribution and experimental results
title_full_unstemmed A research into the thermodynamics of methanol to hydrocarbon (MTH): conflictions between simulated product distribution and experimental results
title_sort research into the thermodynamics of methanol to hydrocarbon (mth): conflictions between simulated product distribution and experimental results
publisher SpringerOpen
series Applied Petrochemical Research
issn 2190-5525
2190-5533
publishDate 2017-05-01
description Abstract Thermodynamic calculations and analysis were carried out for a rational understanding of the results from selected laboratory MTH reactions. Simulations without solid carbons (coke), CO, CO2 and light alkanes target on the yield of olefin and aromatic products, which has been found better referenced to the real experimental observations that occur in time-on-stream (TOS). The confliction between simulated data and real experimental results is presumably ascribed to the limited dwelling time of products in the reaction system. Hydrocarbon pool based reactions donate olefins and methyl-benzenes as primary products in a continuous-flow MTH reaction; when the dwelling time of product extends intra-conversions (H2 transfers) between products would further adjust the composition of MTH yield, in which case alkanes and aromatic products (cokes precursors) increase. In the case of intra-conversions are ignored due to limited product dwelling time, thermodynamic calculation on Gibbs free energy change of selected sub reactions shows fairly close results to the real experimental data, which well supports the above explanations. This work highlights the importance of proper choosing target products and/or sub reactions for a rational thermodynamic prediction of MTH product distribution obtained in time-on-stream.
topic Methanol to hydrocarbon
Hydrocarbon pool mechanism
Thermodynamic
Intra-conversion
Dwelling time
url http://link.springer.com/article/10.1007/s13203-017-0178-1
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