Aktiviteter pr. år
Projektdetaljer
Beskrivelse
The Zero H2S - DEMO project deals with the H2S scavenging process carried out in offshore oil and gas. The project aims at reducing the environmental impact factor of this process, by reducing the amount of organic chemicals (spent and unspent H2S scavengers) discharged into the sea.
The project aims at demonstrating the feasibility of a membrane-based process for recovering the unspent H2S scavenger (MEA-triazine) and of a hydrothermal oxidation process for cleaning the spent scavenger wastewater.
This demonstration project, funded by the Danish Offshore Technology Centre (DOTC), builds upon the Research Project "Zero Discharge of H2S Scavenging Chemicals", where the innovative technology was proved at laboratory scale, and aims at demonstrating the technology at pilot scale in relevant environment (TRL-6).
The project aims at demonstrating the feasibility of a membrane-based process for recovering the unspent H2S scavenger (MEA-triazine) and of a hydrothermal oxidation process for cleaning the spent scavenger wastewater.
This demonstration project, funded by the Danish Offshore Technology Centre (DOTC), builds upon the Research Project "Zero Discharge of H2S Scavenging Chemicals", where the innovative technology was proved at laboratory scale, and aims at demonstrating the technology at pilot scale in relevant environment (TRL-6).
| Status | Afsluttet |
|---|---|
| Effektiv start/slut dato | 01/04/2023 → 31/03/2024 |
Samarbejdspartnere
- Aquarden (Projektpartner)
Finansiering
- Danish Offshore Technology Center: 683.000,00 kr.
FN's verdensmål
I 2015 blev FN-landene enige om 17 verdensmål til at bekæmpe fattigdom, beskytte planeten og sikre velstand for alle. Dette projekt bidrager til følgende verdensmål:
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Udforsk forskningsemnerne, som dette projekt berører. Disse etiketter er oprettet på grundlag af de underliggende bevillinger/legater. Sammen danner de et unikt fingerprint.
Aktiviteter
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Novel approach to H2S scavenging of produced gas: recovery of unspent MEA-triazine and toxicity reduction of spent scavengers
Maschietti, M. (Oplægsholder)
24 sep. 2024Aktivitet: Foredrag og mundtlige bidrag › Foredrag og præsentationer i privat eller offentlig virksomhed
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AAU research and learnings on H2S scavenging
Maschietti, M. (Oplægsholder)
11 jun. 2024Aktivitet: Foredrag og mundtlige bidrag › Foredrag og præsentationer i privat eller offentlig virksomhed
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Water Management Conference 2024
Maschietti, M. (Deltager)
22 maj 2024 → 23 maj 2024Aktivitet: Deltagelse i faglig begivenhed › Organisering af eller deltagelse i konference
Priser
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The Terje Østvold Memory Award - Best Paper 2024
Maschietti, M. (Modtager), 14 mar. 2024
Pris: Konferencepriser
Fil
Projekter
- 1 Afsluttet
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Zero Discharge of H2S Scavenging Chemicals
Maschietti, M. (Projektleder), Muff, J. (Projektleder), Montesantos, N. (PI (principal investigator)), Nikbakht Fini, M. (PI (principal investigator)), Khalil, A. (PI (principal investigator)) & Perrucci, A. (PI (principal investigator))
Danish Offshore Technology Centre
01/08/2020 → 31/12/2024
Projekter: Projekt › Forskning
Publikation
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Hydrothermal oxidation of MEA-triazine spent and unspent H2S scavengers in continuous-flow reactor
Perrucci, A., Skjolding, L. M., Hückelkamp, S. F., Hass, S. A., Christensen, M. N., Muff, J. & Maschietti, M., okt. 2025, I: Journal of Environmental Chemical Engineering. 13, 5, 12 s., 118881.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review
Åben adgangFil1 Citationer (Scopus)21 Downloads (Pure) -
Hydrothermal oxidation in a continuous-flow reactor of spent and unspent H2S scavenging chemicals
Hückelkamp, S., Hass, S., Christensen, M. N., Perrucci, A., Khalil, A., Muff, J. & Maschietti, M., 22 maj 2024. 1 s.Publikation: Konferencebidrag uden forlag/tidsskrift › Poster › Forskning
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Hydrothermal oxidation of spent H2S scavengers: effect of feed pH on liquid effluents
Perrucci, A., Muff, J. & Maschietti, M., 22 maj 2024. 1 s.Publikation: Konferencebidrag uden forlag/tidsskrift › Poster › Forskning