Review on recent advances in adsorptive desulfurization

The challenges of hydrodesulfurization for desulfurizing the refractory sulfur compounds of petroleum fuels are prompting researchers to investigate the different non-conventional desulfurization techniques. Adsorptive desulfurization (ADS) is emerging as a low-cost alternative to ultra-deep hydrode...

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Published inFuel processing technology Vol. 214; p. 106685
Main Authors Saha, Biswajit, Vedachalam, Sundaramurthy, Dalai, Ajay K.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.04.2021
Elsevier Science Ltd
Subjects
Adsorbent
Adsorbents
Adsorption
Adsorptive desulfurization
Adsorptivity
carbon
Chemical composition
Commercialization
coordination polymers
Desulfurization
Desulfurizing
feedstocks
Fuels
Hydrodesulfurization
Low cost
Low-sulfur fuel
Mechanism of adsorption
Metal oxides
Metal-organic frameworks
petroleum
Petroleum feedstock
porous media
Process parameters
Raw materials
Regeneration
Regeneration of adsorbent
Selectivity
Sulfur
Sulfur compounds
thermodynamics
Van der Waals forces
Zeolites
Desulfurization
DMSO
BN
MDBT
Regeneration of adsorbent
BDS
BT
EDS
3,4 BDBT
HDS
DszA
DBT
DszB
Mechanism of adsorption
DszC
2MTH
DszD
Petroleum feedstock
Adsorbent
TBM
ODS
2,8 DMDBT
2,5 DMTH
AC
4,6 DMDBT
FMN
GO
DMS
Low-sulfur fuel
Adsorptive desulfurization
4,MDBT
FMNH2
PVDS
NMP
2HBP
PEG
TH
3MTH
DMDS
RGO
Online AccessGet full text

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Abstract The challenges of hydrodesulfurization for desulfurizing the refractory sulfur compounds of petroleum fuels are prompting researchers to investigate the different non-conventional desulfurization techniques. Adsorptive desulfurization (ADS) is emerging as a low-cost alternative to ultra-deep hydrodesulfurization. In ADS, sulfur compounds are removed via physicochemical adsorption using a selective adsorbent. This review focuses on the latest development in ADS. Zeolite, metal oxide, metal-organic framework, mesoporous material, and carbon are assessed for desulfurization of the model and real feedstocks. The ADS performance of these materials can be improved by incorporating metals. Recent progress on improving the selectivity, stability, reusability is discussed. Depending on adsorbent surface chemical composition, sulfur molecules are removed through π complexation, acid-base, metal‑sulfur, and Van der Waals forces. The effects of process parameters, thermodynamics, and kinetics of ADS are also discussed. Selectivity is found to be a key challenge in ADS of real feedstocks due to competitive adsorption. The testing of adsorbents with real fuels is crucial for the commercialization of ADS. Developments of robust adsorbent with less expensive metals and ideal regeneration methods are needed to demonstrate the capabilities of ADS commercially. The search for a low-cost, and efficient ADS adsorbent is ongoing, and currently, its industrial adaptation is extremely limited. [Display omitted] •A brief review of various desulfurization technologies.•Review of adsorptive desulfurization (ADS) and its mechanisms, thermodynamics and kinetics.•Zeolite, metal oxide, metal-organic framework, mesoporous material, carbon, and clay are assessed for ADS.•Zeolite, metal oxide, metal-organic framework, mesoporous material, carbon, and clay are assessed for ADS.•The current status of ADS for desulfurization of real feedstocks is emphasized.•Further research to overcome the present obstacles of ADS of petroleum feedstocks is proposed.
AbstractList The challenges of hydrodesulfurization for desulfurizing the refractory sulfur compounds of petroleum fuels are prompting researchers to investigate the different non-conventional desulfurization techniques. Adsorptive desulfurization (ADS) is emerging as a low-cost alternative to ultra-deep hydrodesulfurization. In ADS, sulfur compounds are removed via physicochemical adsorption using a selective adsorbent. This review focuses on the latest development in ADS. Zeolite, metal oxide, metal-organic framework, mesoporous material, and carbon are assessed for desulfurization of the model and real feedstocks. The ADS performance of these materials can be improved by incorporating metals. Recent progress on improving the selectivity, stability, reusability is discussed. Depending on adsorbent surface chemical composition, sulfur molecules are removed through π complexation, acid-base, metal‑sulfur, and Van der Waals forces. The effects of process parameters, thermodynamics, and kinetics of ADS are also discussed. Selectivity is found to be a key challenge in ADS of real feedstocks due to competitive adsorption. The testing of adsorbents with real fuels is crucial for the commercialization of ADS. Developments of robust adsorbent with less expensive metals and ideal regeneration methods are needed to demonstrate the capabilities of ADS commercially. The search for a low-cost, and efficient ADS adsorbent is ongoing, and currently, its industrial adaptation is extremely limited.
The challenges of hydrodesulfurization for desulfurizing the refractory sulfur compounds of petroleum fuels are prompting researchers to investigate the different non-conventional desulfurization techniques. Adsorptive desulfurization (ADS) is emerging as a low-cost alternative to ultra-deep hydrodesulfurization. In ADS, sulfur compounds are removed via physicochemical adsorption using a selective adsorbent. This review focuses on the latest development in ADS. Zeolite, metal oxide, metal-organic framework, mesoporous material, and carbon are assessed for desulfurization of the model and real feedstocks. The ADS performance of these materials can be improved by incorporating metals. Recent progress on improving the selectivity, stability, reusability is discussed. Depending on adsorbent surface chemical composition, sulfur molecules are removed through π complexation, acid-base, metal‑sulfur, and Van der Waals forces. The effects of process parameters, thermodynamics, and kinetics of ADS are also discussed. Selectivity is found to be a key challenge in ADS of real feedstocks due to competitive adsorption. The testing of adsorbents with real fuels is crucial for the commercialization of ADS. Developments of robust adsorbent with less expensive metals and ideal regeneration methods are needed to demonstrate the capabilities of ADS commercially. The search for a low-cost, and efficient ADS adsorbent is ongoing, and currently, its industrial adaptation is extremely limited. [Display omitted] •A brief review of various desulfurization technologies.•Review of adsorptive desulfurization (ADS) and its mechanisms, thermodynamics and kinetics.•Zeolite, metal oxide, metal-organic framework, mesoporous material, carbon, and clay are assessed for ADS.•Zeolite, metal oxide, metal-organic framework, mesoporous material, carbon, and clay are assessed for ADS.•The current status of ADS for desulfurization of real feedstocks is emphasized.•Further research to overcome the present obstacles of ADS of petroleum feedstocks is proposed.
ArticleNumber 106685
Author Vedachalam, Sundaramurthy
Dalai, Ajay K.
Saha, Biswajit
Author_xml – sequence: 1
  givenname: Biswajit
  surname: Saha
  fullname: Saha, Biswajit
– sequence: 2
  givenname: Sundaramurthy
  surname: Vedachalam
  fullname: Vedachalam, Sundaramurthy
– sequence: 3
  givenname: Ajay K.
  surname: Dalai
  fullname: Dalai, Ajay K.
  email: ajay.dalai@usask.ca
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DMSO
BN
MDBT
Regeneration of adsorbent
BDS
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Snippet The challenges of hydrodesulfurization for desulfurizing the refractory sulfur compounds of petroleum fuels are prompting researchers to investigate the...
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SubjectTerms Adsorbent
Adsorbents
Adsorption
Adsorptive desulfurization
Adsorptivity
carbon
Chemical composition
Commercialization
coordination polymers
Desulfurization
Desulfurizing
feedstocks
Fuels
Hydrodesulfurization
Low cost
Low-sulfur fuel
Mechanism of adsorption
Metal oxides
Metal-organic frameworks
petroleum
Petroleum feedstock
porous media
Process parameters
Raw materials
Regeneration
Regeneration of adsorbent
Selectivity
Sulfur
Sulfur compounds
thermodynamics
Van der Waals forces
Zeolites
Title Review on recent advances in adsorptive desulfurization
URI https://dx.doi.org/10.1016/j.fuproc.2020.106685
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https://www.proquest.com/docview/2986289202
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