Evaluation of CO2 hydrate formation from mixture of graphite nanoparticle and sodium dodecyl benzene sulfonate

Synergic effect of graphite nanoparticle(GN) and sodium dodecyl benzene sulfonate(SDBS) on the kinetics of CO2 hydrate formation were systematically investigated at 277.15 K and 3.5 MPa by measuring the surface tensions, CO2 consumption, storage capacity, hydrate formation rate, ratio of water conve...

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Published in:Journal of Industrial and Engineering Chemistry
Main Authors: Yu, Yi-song, Xu, Chun-gang, Li, Xiao-sen
Format: Report
Language:English
Published: ELSEVIER SCIENCE INC 2018
Subjects:
Chemistry
Engineering
SDBS
Graphite nanoparticles
Induction time
Water to hydrate conversion
Gas consumption
Multidisciplinary
Chemical
METHANE HYDRATE
GAS HYDRATE
NANOCOMPOSITE MATERIALS
SILVER NANOPARTICLES
OXIDE NANOPARTICLES
HOST (NANOCAVITY
SOLAR-CELLS
SDS
DISSOCIATION
PHASE
Methane hydrate
Online Access:http://ir.gig.ac.cn/handle/344008/44650
https://doi.org/10.1016/j.jiec.2017.10.007
id ftchacadscgigcas:oai:ir.gig.ac.cn:344008/44650
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spelling ftchacadscgigcas:oai:ir.gig.ac.cn:344008/44650 2023-05-15T17:11:59+02:00 Evaluation of CO2 hydrate formation from mixture of graphite nanoparticle and sodium dodecyl benzene sulfonate Yu, Yi-song Xu, Chun-gang Li, Xiao-sen 2018-03-25 http://ir.gig.ac.cn/handle/344008/44650 https://doi.org/10.1016/j.jiec.2017.10.007 英语 eng ELSEVIER SCIENCE INC JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY http://ir.gig.ac.cn/handle/344008/44650 doi:10.1016/j.jiec.2017.10.007 Chemistry Engineering SDBS Graphite nanoparticles Induction time Water to hydrate conversion Gas consumption Multidisciplinary Chemical METHANE HYDRATE GAS HYDRATE NANOCOMPOSITE MATERIALS SILVER NANOPARTICLES OXIDE NANOPARTICLES HOST (NANOCAVITY SOLAR-CELLS SDS DISSOCIATION PHASE 期刊论文 2018 ftchacadscgigcas https://doi.org/10.1016/j.jiec.2017.10.007 2020-12-22T07:21:51Z Synergic effect of graphite nanoparticle(GN) and sodium dodecyl benzene sulfonate(SDBS) on the kinetics of CO2 hydrate formation were systematically investigated at 277.15 K and 3.5 MPa by measuring the surface tensions, CO2 consumption, storage capacity, hydrate formation rate, ratio of water converting to hydrate and induction time. The experimental results indicated that SDBS concentration change led to the dramatic change of the kinetics characteristics of hydrate formation. Relative to the pure water system, the gas consumption, hydrate storage, hydrate formation rate and ratio of water converting to hydrate were increased by 86.4%, 35.8%, 85.1% and 20% in the presence of GN(0.4%) + SDBS(0.04%), respectively. (C) 2017 The Korean Society of Industrial and Engineering Chemistry. Published by Elsevier B.V. All rights reserved. Report Methane hydrate Guangzhou Institute of Geochemistry: GIG OpenIR (Chinese Academy of Sciences) Journal of Industrial and Engineering Chemistry 59 64 69
institution Open Polar
collection Guangzhou Institute of Geochemistry: GIG OpenIR (Chinese Academy of Sciences)
op_collection_id ftchacadscgigcas
language English
topic Chemistry
Engineering
SDBS
Graphite nanoparticles
Induction time
Water to hydrate conversion
Gas consumption
Multidisciplinary
Chemical
METHANE HYDRATE
GAS HYDRATE
NANOCOMPOSITE MATERIALS
SILVER NANOPARTICLES
OXIDE NANOPARTICLES
HOST (NANOCAVITY
SOLAR-CELLS
SDS
DISSOCIATION
PHASE
spellingShingle Chemistry
Engineering
SDBS
Graphite nanoparticles
Induction time
Water to hydrate conversion
Gas consumption
Multidisciplinary
Chemical
METHANE HYDRATE
GAS HYDRATE
NANOCOMPOSITE MATERIALS
SILVER NANOPARTICLES
OXIDE NANOPARTICLES
HOST (NANOCAVITY
SOLAR-CELLS
SDS
DISSOCIATION
PHASE
Yu, Yi-song
Xu, Chun-gang
Li, Xiao-sen
Evaluation of CO2 hydrate formation from mixture of graphite nanoparticle and sodium dodecyl benzene sulfonate
topic_facet Chemistry
Engineering
SDBS
Graphite nanoparticles
Induction time
Water to hydrate conversion
Gas consumption
Multidisciplinary
Chemical
METHANE HYDRATE
GAS HYDRATE
NANOCOMPOSITE MATERIALS
SILVER NANOPARTICLES
OXIDE NANOPARTICLES
HOST (NANOCAVITY
SOLAR-CELLS
SDS
DISSOCIATION
PHASE
description Synergic effect of graphite nanoparticle(GN) and sodium dodecyl benzene sulfonate(SDBS) on the kinetics of CO2 hydrate formation were systematically investigated at 277.15 K and 3.5 MPa by measuring the surface tensions, CO2 consumption, storage capacity, hydrate formation rate, ratio of water converting to hydrate and induction time. The experimental results indicated that SDBS concentration change led to the dramatic change of the kinetics characteristics of hydrate formation. Relative to the pure water system, the gas consumption, hydrate storage, hydrate formation rate and ratio of water converting to hydrate were increased by 86.4%, 35.8%, 85.1% and 20% in the presence of GN(0.4%) + SDBS(0.04%), respectively. (C) 2017 The Korean Society of Industrial and Engineering Chemistry. Published by Elsevier B.V. All rights reserved.
format Report
author Yu, Yi-song
Xu, Chun-gang
Li, Xiao-sen
author_facet Yu, Yi-song
Xu, Chun-gang
Li, Xiao-sen
author_sort Yu, Yi-song
title Evaluation of CO2 hydrate formation from mixture of graphite nanoparticle and sodium dodecyl benzene sulfonate
title_short Evaluation of CO2 hydrate formation from mixture of graphite nanoparticle and sodium dodecyl benzene sulfonate
title_full Evaluation of CO2 hydrate formation from mixture of graphite nanoparticle and sodium dodecyl benzene sulfonate
title_fullStr Evaluation of CO2 hydrate formation from mixture of graphite nanoparticle and sodium dodecyl benzene sulfonate
title_full_unstemmed Evaluation of CO2 hydrate formation from mixture of graphite nanoparticle and sodium dodecyl benzene sulfonate
title_sort evaluation of co2 hydrate formation from mixture of graphite nanoparticle and sodium dodecyl benzene sulfonate
publisher ELSEVIER SCIENCE INC
publishDate 2018
url http://ir.gig.ac.cn/handle/344008/44650
https://doi.org/10.1016/j.jiec.2017.10.007
genre Methane hydrate
genre_facet Methane hydrate
op_relation JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY
http://ir.gig.ac.cn/handle/344008/44650
doi:10.1016/j.jiec.2017.10.007
op_doi https://doi.org/10.1016/j.jiec.2017.10.007
container_title Journal of Industrial and Engineering Chemistry
container_volume 59
container_start_page 64
op_container_end_page 69
_version_ 1766068743028342784

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