Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage

Natural gas hydrates are naturally occurring in sediments of permafrost regions and continental margins. Recovery of natural gas (main CH 4 ) bound in hydrate deposits with large quantities of reserve can meet the increasing global energy demand. CH 4 -CO 2 hydrate swapping is an attractive exploita...

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Main Author: Ouyang, Qian
Format: Book
Language:English
Published: Technical University of Denmark 2023
Subjects:
permafrost
Online Access:https://orbit.dtu.dk/en/publications/b9394b21-bde6-4e2a-be5d-00e190701a4d
https://backend.orbit.dtu.dk/ws/files/360806403/PhD_thesis_-_Qian_Ouyang.pdf
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spelling ftdtupubl:oai:pure.atira.dk:publications/b9394b21-bde6-4e2a-be5d-00e190701a4d 2024-09-15T18:30:14+00:00 Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage Ouyang, Qian 2023 application/pdf https://orbit.dtu.dk/en/publications/b9394b21-bde6-4e2a-be5d-00e190701a4d https://backend.orbit.dtu.dk/ws/files/360806403/PhD_thesis_-_Qian_Ouyang.pdf eng eng Technical University of Denmark https://orbit.dtu.dk/en/publications/b9394b21-bde6-4e2a-be5d-00e190701a4d info:eu-repo/semantics/openAccess Ouyang , Q 2023 , Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage . Technical University of Denmark , Kgs. Lyngby . book 2023 ftdtupubl 2024-08-13T00:03:07Z Natural gas hydrates are naturally occurring in sediments of permafrost regions and continental margins. Recovery of natural gas (main CH 4 ) bound in hydrate deposits with large quantities of reserve can meet the increasing global energy demand. CH 4 -CO 2 hydrate swapping is an attractive exploitation technique that can recover CH 4 gas and store CO 2 hydrate. The CH4 trapped in the hydrate is to be replaced by CO 2 . The newly forming CO 2 hydrate can maintain the stability of hydrate-bearing sediments. However, this technique suffers from low efficiencies of CH 4 gas recovery and CO 2 hydrate storage, due to low CO 2 injectivity caused by limited mass transfer within sediments. To improve mass transfer and increase CO 2 sweep area, slow depressurization was conducted after CH4-CO 2 hydrate swapping. This process of exploitation was investigated in multiscale. The purpose of this combined strategy was to trigger the wanted CH 4 -rich hydrate dissociation and CO 2 -rich hydrate formation, thus promoting CH 4 gas recovery and CO 2 hydrate storage. In the first part of microfluidics, the morphological characteristics of CH 4 hydrate and CO 2 hydrates were investigated to provide microfluidic insights into CH 4 hydrate and CO 2 hydrate dynamics in confined space. Paper 1 explored the effects of wettability and gas/water saturation on CH 4 hydrate formation/dissociation in microfluidic chips with hydrophilic or hydrophobic surfaces. The results showed more favorable water diffusion dominated in continuous gas flows of gas-rich hydrophilic pores, resulting in more CH4 hydrate formation. The moderate CH 4 hydrate stability in hydrophilicity benefits CH 4 gas recovery from hydrate.For CO 2 hydrate formation in microfluidics, the results of morphological observations and Raman spectra confirmed CO 2 storage in states of hydrate and liquid. The sealing effect of CO 2 hydrates was detected by pressure differences among micropores. The storage capacity of CO 2 hydrates in micropores indicated that hydrate-based CO 2 ... Book permafrost Technical University of Denmark: DTU Orbit
institution Open Polar
collection Technical University of Denmark: DTU Orbit
op_collection_id ftdtupubl
language English
description Natural gas hydrates are naturally occurring in sediments of permafrost regions and continental margins. Recovery of natural gas (main CH 4 ) bound in hydrate deposits with large quantities of reserve can meet the increasing global energy demand. CH 4 -CO 2 hydrate swapping is an attractive exploitation technique that can recover CH 4 gas and store CO 2 hydrate. The CH4 trapped in the hydrate is to be replaced by CO 2 . The newly forming CO 2 hydrate can maintain the stability of hydrate-bearing sediments. However, this technique suffers from low efficiencies of CH 4 gas recovery and CO 2 hydrate storage, due to low CO 2 injectivity caused by limited mass transfer within sediments. To improve mass transfer and increase CO 2 sweep area, slow depressurization was conducted after CH4-CO 2 hydrate swapping. This process of exploitation was investigated in multiscale. The purpose of this combined strategy was to trigger the wanted CH 4 -rich hydrate dissociation and CO 2 -rich hydrate formation, thus promoting CH 4 gas recovery and CO 2 hydrate storage. In the first part of microfluidics, the morphological characteristics of CH 4 hydrate and CO 2 hydrates were investigated to provide microfluidic insights into CH 4 hydrate and CO 2 hydrate dynamics in confined space. Paper 1 explored the effects of wettability and gas/water saturation on CH 4 hydrate formation/dissociation in microfluidic chips with hydrophilic or hydrophobic surfaces. The results showed more favorable water diffusion dominated in continuous gas flows of gas-rich hydrophilic pores, resulting in more CH4 hydrate formation. The moderate CH 4 hydrate stability in hydrophilicity benefits CH 4 gas recovery from hydrate.For CO 2 hydrate formation in microfluidics, the results of morphological observations and Raman spectra confirmed CO 2 storage in states of hydrate and liquid. The sealing effect of CO 2 hydrates was detected by pressure differences among micropores. The storage capacity of CO 2 hydrates in micropores indicated that hydrate-based CO 2 ...
format Book
author Ouyang, Qian
spellingShingle Ouyang, Qian
Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage
author_facet Ouyang, Qian
author_sort Ouyang, Qian
title Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage
title_short Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage
title_full Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage
title_fullStr Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage
title_full_unstemmed Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage
title_sort multiscale investigation of ch 4 /co 2 hydrates in sediment: ch 4 recovery and co 2 storage
publisher Technical University of Denmark
publishDate 2023
url https://orbit.dtu.dk/en/publications/b9394b21-bde6-4e2a-be5d-00e190701a4d
https://backend.orbit.dtu.dk/ws/files/360806403/PhD_thesis_-_Qian_Ouyang.pdf
genre permafrost
genre_facet permafrost
op_source Ouyang , Q 2023 , Multiscale investigation of CH 4 /CO 2 hydrates in sediment: CH 4 recovery and CO 2 storage . Technical University of Denmark , Kgs. Lyngby .
op_relation https://orbit.dtu.dk/en/publications/b9394b21-bde6-4e2a-be5d-00e190701a4d
op_rights info:eu-repo/semantics/openAccess
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