• No results found

University of Groningen Development and design of the in-situ regeneration section of Vitrisol®, a novel, highly selective desulphurization process Wermink, Wouter Nicolaas

N/A
N/A
Protected

Academic year: 2021

Share "University of Groningen Development and design of the in-situ regeneration section of Vitrisol®, a novel, highly selective desulphurization process Wermink, Wouter Nicolaas"

Copied!
3
0
0

Bezig met laden.... (Bekijk nu de volledige tekst)

Hele tekst

(1)

University of Groningen

Development and design of the in-situ regeneration section of Vitrisol®, a novel, highly

selective desulphurization process

Wermink, Wouter Nicolaas

IMPORTANT NOTE: You are advised to consult the publisher's version (publisher's PDF) if you wish to cite from it. Please check the document version below.

Document Version

Publisher's PDF, also known as Version of record

Publication date: 2019

Link to publication in University of Groningen/UMCG research database

Citation for published version (APA):

Wermink, W. N. (2019). Development and design of the in-situ regeneration section of Vitrisol®, a novel, highly selective desulphurization process. Rijksuniversiteit Groningen.

Copyright

Other than for strictly personal use, it is not permitted to download or to forward/distribute the text or part of it without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license (like Creative Commons).

Take-down policy

If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim.

Downloaded from the University of Groningen/UMCG research database (Pure): http://www.rug.nl/research/portal. For technical reasons the number of authors shown on this cover page is limited to 10 maximum.

(2)

187

List of publications

Journal publications

1. Haubrock, J., Wermink, W., Versteeg, G.F., Kooijman, H.A., Taylor, R., Sint Annaland, M.V. and Hogendoorn, J.A. Reaction from dimethyl carbonate (DMC) to diphenyl carbonate (DPC). 2. Kinetics of the reactions from DMC via methyl phenyl carbonate to DPC. Ind. Eng. Chem.

Res. 2008, 47 (24), 9862-9870. DOI: 10.1021/ie071176d.

2. Wermink, W.N. and Versteeg, G.F. The oxidation of Fe(II) in acidic sulfate solutions with air at elevated pressures. Part 1. Kinetics above 1 M H2SO4. Ind. Eng. Chem. Res. 2017, 56 (14),

3775-3788. DOI: 10.1021/acs.iecr.6b04606.

3. Wermink, W.N. and Versteeg, G.F. The oxidation of Fe(II) in acidic sulfate solutions with air at elevated pressures. Part 2. Influence of H2SO4 and Fe(III). Ind. Eng. Chem. Res. 2017, 56 (14),

3789-3796. DOI: 10.1021/acs.iecr.6b04641.

4. Wermink, W.N., Ramachandran, N. and Versteeg, G.F. Vitrisol® a 100% selective process for H2S removal in the presence of CO2. J. Nat. Gas Eng. 2017, 2 (1), 50-83. DOI:

10.7569/JNGE.2017.692503.

5. Wermink, W.N., Spinu, D. and Versteeg, G.F. The oxidation of Fe(II) with Cu(II) in acidic sulphate solutions with air at elevated pressures. Chem. Eng. Commun. 2018, accepted. DOI: 10.1080/00986445.2018.1499017.

6. Wermink, W.N. and Versteeg, G.F. The dissolution of CuS particles with Fe(III) in acidic sulphate solutions. Ind. Eng. Chem. Res. 2018, 57 (37), 12323-12334. DOI: 10.1021/acs.iecr.8b01598.

7. Wermink, W.N., Spinu, D. and Versteeg, G.F. Sulphur solubilities in toluene, o-xylene, m-xylene and p-m-xylene at temperatures ranging from 303.15 K to 363.15 K. J. Nat. Gas Eng. 2018, accepted.

Conferences and symposia

8. Wermink, W.N., Klepacova, K., Ijben, P., Van Loo, S. and Versteeg, G.F. GTBE – Turning residual biodiesel glycerin into a remedy for diesel soot emissions; thermodynamic background. 15th European Biomass Conference & Exhibition; from Research to Market

Deployment, 2007, 2045-2049.

9. Wermink, W.N., Ramachandran, N. and Versteeg, G.F. Vitrisol® a 100% Selective Process for H2S Removal in the Presence of CO2. In Carbon Dioxide Capture and Acid Gas Injection (ed Y.

(3)

List of publications

188

Patents

10. Versteeg, G.F., Ijben, P., Wermink, W.N., Klepacova, K., Van Loo, S. and Kesber, W. Method of preparing GTBE. WO patent 2009147541 A2, assigned to The GTBE Company NV, priority date April 30, 2008.

11. Versteeg, G.F., Van Loo, S., Ijben, P., Ter Maat, H. and Wermink, W.N. Method for selectively removing sulphur and/or sulphur containing contaminant compounds from a gas flow. WO patent 2012164468 A1, assigned to Frames Biogas Processing BV, priority date May 27, 2011. 12. Versteeg, G.F., Van Loo, S., Ijben, P., Ter Maat, H. and Wermink, W.N. Method for regenerating absorption liquid. WO patent 2012164468 A1, assigned to Frames Biogas Processing BV, priority date May 27, 2011.

13. Versteeg, G.F. and Wermink, W.N. Removal of sulfur compounds from gas streams via precipitation. WO patent 2017105245 A2, assigned to Procede Holding BV, priority date December 18, 2015.

14. Wermink, W.N. and Versteeg, G.F. GTBE compositions, methods and installations for enhanced octane boosting. WO patent 2017105246 A2, assigned to Procede Holding BV, priority date December 18, 2015.

Referenties

GERELATEERDE DOCUMENTEN

Development and design of the in-situ regeneration section of Vitrisol®, a novel, highly selective desulphurization process..

For small quantities of sulphur to be removed (up to 50 kg/day of sulphur), technologies are preferred with relatively low capital costs like e.g. For increasing H 2 S

The proposed rate law by Verbaan and Crundwell 19 is only valid in the ferric ion concentration range of 0 M to 0.20 M, because in this concentration range a constant order

The kinetic equation for the oxidation of ferrous ions in acidic sulphate solutions was determined by fitting experimentally determined Fe 2+ concentration profiles... 35

Ferrous sulphate oxidation experiments in the presence of copper sulphate were performed at a temperature of 150 °C and at an oxygen partial pressure of 0.138 MPa.. It was not

Wermink and Versteeg 4,7 studied the oxidation of ferrous ions in acidic sulphate solutions (Reaction 5.3), and proposed kinetic equations derived by both fitting the

First, the influence of stirring (or equilibrating) time of the solution before taking a sample, the use of a filter and settling time were investigated. For all the used stirring

3) The gas phase mass transfer coefficient was calculated using the approach of Colombet, 19 however, from this work it is not evident how the effect of process