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Versatile Adsorption Processes for the Capture of Carbon Dioxide from Industrial Sources - FlexICCS
Brandani, Stefano
(Principal Investigator)
Friedrich, Daniel
(Co-investigator)
Mangano, Enzo
(Co-investigator)
School of Engineering
Overview
Fingerprint
Research output
(7)
Project Details
Status
Finished
Effective start/end date
1/09/16
→
30/04/21
Funding
EPSRC:
£797,556.00
View all
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Fingerprint
Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.
Adsorption
Engineering & Materials Science
100%
Isotherms
Engineering & Materials Science
84%
adsorbents
Physics & Astronomy
71%
Adsorbents
Engineering & Materials Science
67%
isotherms
Physics & Astronomy
55%
Isotherm
Chemical Compounds
53%
Column Like Crystal
Chemical Compounds
50%
Length
Chemical Compounds
50%
Research output
Research output per year
2019
2019
2021
2022
6
Article
1
Review article
Research output per year
Research output per year
Extruded Monoliths for Gas Separation Processes: Height Equivalent to a Theoretical Plate and Pressure Drop Correlations
Mennitto, R.
,
Sharma, I.
&
Brandani, S.
,
Jun 2022
,
In:
AIChE Journal.
68
,
6
, e17650.
Research output
:
Contribution to journal
›
Article
›
peer-review
Pressure Drop
100%
pressure drop
80%
Pressure drop
71%
Gases
67%
Plate Like Crystal
62%
Analysis of CO2 kinetics in Na,Cs-Rho crystals using the Zero Length Column – a case study for slow systems
Mangano, E.
&
Brandani, S.
,
24 Sep 2021
,
In:
Brazilian Journal of Chemical Engineering.
p. 1-9
9 p.
Research output
:
Contribution to journal
›
Article
›
peer-review
Open Access
File
Crystals
100%
Column Like Crystal
60%
Length
60%
Time
36%
Diffusion
31%
Direct Measurement of the Mass Transport Coefficient of Water in Silica-Gel Using the Zero Length Column Technique
Brandani, S.
&
Mangano, E.
,
1 Sep 2021
, (E-pub ahead of print)
In:
Energy.
121945.
Research output
:
Contribution to journal
›
Article
›
peer-review
Silica
100%
Transport Coefficients
91%
Mass Transport
88%
Silica gel
87%
Mass Transfer
80%