Desalination of Produced Water via Gas Hydrate Formation and Post Treatment
This study presents a two-step desalination process, in which produced water is cleaned by forming gas hydrate in it and subsequently dewatering the hydrate to remove the residual produced water trapped in between the hydrate crystals. All experiments were performed with pressure in the range of 450...
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Virginia Tech
2017
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ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-768222020-09-29T05:41:30Z Desalination of Produced Water via Gas Hydrate Formation and Post Treatment Niu, Jing Mining and Minerals Engineering Yoon, Roe-Hoan Luttrell, Gerald H. Adel, Gregory T. Gandour, Richard D. Desalination gas hydrate This study presents a two-step desalination process, in which produced water is cleaned by forming gas hydrate in it and subsequently dewatering the hydrate to remove the residual produced water trapped in between the hydrate crystals. All experiments were performed with pressure in the range of 450 to 800psi and temperature in the range of -1 to 1°C using CO? as guest molecule for the hydrate crystals. The experiments were conducted using artificial produced waters containing different amounts of NaCl, CaCl₂ and MgCl₂ at varying temperature (T) and pressure (P). The results are presented as functions of %Reduction of difference chemical elements, CO? requirements and applied T and P conditions. The impact of dewatering techniques, including centrifuge and filtration process, on gas hydrate solid product is studied. The results showed that over 99% of dissolved NaCl and MgCl2 can be removed from artificial saline water in laboratory experiments. This was achieved in a process involving a single-stage hydrate formation step, followed by a single-step solid-liquid separation (or dewatering). The results also show that the %Reduction (percentage of the concentration decrease) of artificial produced water increases with centrifugation time and rotational speed (rpm). The %Reduction was increased considerably after hydrate crystals were crushed and filtered, indicating that the artificial process water was entrapped in between the hydrate crystals. It was found also that the finer the particle size, the higher the extent of salt removal. In general, filtration was a better than centrifugation for the removal of TDS (Total Dissolved Solids). Master of Science 2017-04-04T19:49:31Z 2017-04-04T19:49:31Z 2012-04-19 2012-07-12 2016-10-07 2012-08-14 Thesis Text etd-07122012-172310 http://hdl.handle.net/10919/76822 http://scholar.lib.vt.edu/theses/available/etd-07122012-172310/ en_US In Copyright http://rightsstatements.org/vocab/InC/1.0/ application/pdf Virginia Tech |
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en_US |
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Others
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NDLTD |
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Desalination gas hydrate |
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Desalination gas hydrate Niu, Jing Desalination of Produced Water via Gas Hydrate Formation and Post Treatment |
| description |
This study presents a two-step desalination process, in which produced water is cleaned by forming gas hydrate in it and subsequently dewatering the hydrate to remove the residual produced water trapped in between the hydrate crystals. All experiments were performed with pressure in the range of 450 to 800psi and temperature in the range of -1 to 1°C using CO? as guest molecule for the hydrate crystals. The experiments were conducted using artificial produced waters containing different amounts of NaCl, CaCl₂ and MgCl₂ at varying temperature (T) and pressure (P). The results are presented as functions of %Reduction of difference chemical elements, CO? requirements and applied T and P conditions.
The impact of dewatering techniques, including centrifuge and filtration process, on gas hydrate solid product is studied. The results showed that over 99% of dissolved NaCl and MgCl2 can be removed from artificial saline water in laboratory experiments. This was achieved in a process involving a single-stage hydrate formation step, followed by a single-step solid-liquid separation (or dewatering). The results also show that the %Reduction (percentage of the concentration decrease) of artificial produced water increases with centrifugation time and rotational speed (rpm). The %Reduction was increased considerably after hydrate crystals were crushed and filtered, indicating that the artificial process water was entrapped in between the hydrate crystals. It was found also that the finer the particle size, the higher the extent of salt removal. In general, filtration was a better than centrifugation for the removal of TDS (Total Dissolved Solids). === Master of Science |
| author2 |
Mining and Minerals Engineering |
| author_facet |
Mining and Minerals Engineering Niu, Jing |
| author |
Niu, Jing |
| author_sort |
Niu, Jing |
| title |
Desalination of Produced Water via Gas Hydrate Formation and Post Treatment |
| title_short |
Desalination of Produced Water via Gas Hydrate Formation and Post Treatment |
| title_full |
Desalination of Produced Water via Gas Hydrate Formation and Post Treatment |
| title_fullStr |
Desalination of Produced Water via Gas Hydrate Formation and Post Treatment |
| title_full_unstemmed |
Desalination of Produced Water via Gas Hydrate Formation and Post Treatment |
| title_sort |
desalination of produced water via gas hydrate formation and post treatment |
| publisher |
Virginia Tech |
| publishDate |
2017 |
| url |
http://hdl.handle.net/10919/76822 http://scholar.lib.vt.edu/theses/available/etd-07122012-172310/ |
| work_keys_str_mv |
AT niujing desalinationofproducedwaterviagashydrateformationandposttreatment |
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1719345413771755520 |