Study on Hydrate Production Behaviors by Depressurization Combined with Brine Injection in the Excess-Water Hydrate Reservoir

Depressurization combined with brine injection is a potential method for field production of natural gas hydrate, which can significantly improve production efficiency and avoid secondary formation of hydrate. In this work, the experiments of hydrate production using depressurization combined with b...

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Published in:Entropy
Main Authors: Zeng, Haopeng, Zhang, Yu, Zhang, Lei, Chen, Zhaoyang, Li, Xiaosen
Format: Report
Language:English
Published: MDPI 2022
Subjects:
methane hydrate
depressurization
NaCl concentration
gas production
excess-water
NATURAL-GAS HYDRATE
THERMAL-STIMULATION
DISSOCIATION
DECOMPOSITION
TECHNOLOGY
SEDIMENTS
HEAT
Physics
Multidisciplinary
Methane hydrate
Online Access:http://ir.giec.ac.cn/handle/344007/36919
http://ir.giec.ac.cn/handle/344007/36920
https://doi.org/10.3390/e24060765
id ftchacadsciegiec:oai:ir.giec.ac.cn:344007/36920
record_format openpolar
spelling ftchacadsciegiec:oai:ir.giec.ac.cn:344007/36920 2023-12-24T10:18:34+01:00 Study on Hydrate Production Behaviors by Depressurization Combined with Brine Injection in the Excess-Water Hydrate Reservoir Zeng, Haopeng Zhang, Yu Zhang, Lei Chen, Zhaoyang Li, Xiaosen 2022-06-01 http://ir.giec.ac.cn/handle/344007/36919 http://ir.giec.ac.cn/handle/344007/36920 https://doi.org/10.3390/e24060765 英语 eng MDPI ENTROPY http://ir.giec.ac.cn/handle/344007/36919 http://ir.giec.ac.cn/handle/344007/36920 doi:10.3390/e24060765 methane hydrate depressurization NaCl concentration gas production excess-water NATURAL-GAS HYDRATE THERMAL-STIMULATION DISSOCIATION DECOMPOSITION TECHNOLOGY SEDIMENTS HEAT Physics Multidisciplinary 期刊论文 2022 ftchacadsciegiec https://doi.org/10.3390/e24060765 2023-11-24T01:15:54Z Depressurization combined with brine injection is a potential method for field production of natural gas hydrate, which can significantly improve production efficiency and avoid secondary formation of hydrate. In this work, the experiments of hydrate production using depressurization combined with brine injection from a simulated excess-water hydrate reservoir were performed, and the effects of NaCl concentration on hydrate decomposition, temperature change, and heat transfer in the reservoir were investigated. The experimental results indicate that there is little gas production during depressurization in a excess-water hydrate reservoir, and the gas dissociated from hydrate is trapped in pores of sediments. The high-water production reduces the final gas recovery, which is lower than 70% in the experiments. The increasing NaCl concentration only effectively promotes gas production rate in the early stage. The final cumulative gas production and average gas production rate have little difference in different experiments. The NaCl concentration of the produced water is significantly higher than that which is in contact with hydrate in the sediments because the water produced by hydrate decomposition exists on the surface of undissociated hydrate. The high concentration of NaCl in the produced water from the reactor significantly reduces the promoting effect and efficiency of NaCl solution on hydrate decomposition. The injection of NaCl solution decreases the lowest temperature in sediments during hydrate production, and increases the sensible heat and heat transfer from environment for hydrate decomposition. The changes of temperature and resistance effectively reflect the distribution of the injected NaCl solution in the hydrate reservoir. Report Methane hydrate Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences: GIEC OpenIR Entropy 24 6 765
institution Open Polar
collection Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences: GIEC OpenIR
op_collection_id ftchacadsciegiec
language English
topic methane hydrate
depressurization
NaCl concentration
gas production
excess-water
NATURAL-GAS HYDRATE
THERMAL-STIMULATION
DISSOCIATION
DECOMPOSITION
TECHNOLOGY
SEDIMENTS
HEAT
Physics
Multidisciplinary
spellingShingle methane hydrate
depressurization
NaCl concentration
gas production
excess-water
NATURAL-GAS HYDRATE
THERMAL-STIMULATION
DISSOCIATION
DECOMPOSITION
TECHNOLOGY
SEDIMENTS
HEAT
Physics
Multidisciplinary
Zeng, Haopeng
Zhang, Yu
Zhang, Lei
Chen, Zhaoyang
Li, Xiaosen
Study on Hydrate Production Behaviors by Depressurization Combined with Brine Injection in the Excess-Water Hydrate Reservoir
topic_facet methane hydrate
depressurization
NaCl concentration
gas production
excess-water
NATURAL-GAS HYDRATE
THERMAL-STIMULATION
DISSOCIATION
DECOMPOSITION
TECHNOLOGY
SEDIMENTS
HEAT
Physics
Multidisciplinary
description Depressurization combined with brine injection is a potential method for field production of natural gas hydrate, which can significantly improve production efficiency and avoid secondary formation of hydrate. In this work, the experiments of hydrate production using depressurization combined with brine injection from a simulated excess-water hydrate reservoir were performed, and the effects of NaCl concentration on hydrate decomposition, temperature change, and heat transfer in the reservoir were investigated. The experimental results indicate that there is little gas production during depressurization in a excess-water hydrate reservoir, and the gas dissociated from hydrate is trapped in pores of sediments. The high-water production reduces the final gas recovery, which is lower than 70% in the experiments. The increasing NaCl concentration only effectively promotes gas production rate in the early stage. The final cumulative gas production and average gas production rate have little difference in different experiments. The NaCl concentration of the produced water is significantly higher than that which is in contact with hydrate in the sediments because the water produced by hydrate decomposition exists on the surface of undissociated hydrate. The high concentration of NaCl in the produced water from the reactor significantly reduces the promoting effect and efficiency of NaCl solution on hydrate decomposition. The injection of NaCl solution decreases the lowest temperature in sediments during hydrate production, and increases the sensible heat and heat transfer from environment for hydrate decomposition. The changes of temperature and resistance effectively reflect the distribution of the injected NaCl solution in the hydrate reservoir.
format Report
author Zeng, Haopeng
Zhang, Yu
Zhang, Lei
Chen, Zhaoyang
Li, Xiaosen
author_facet Zeng, Haopeng
Zhang, Yu
Zhang, Lei
Chen, Zhaoyang
Li, Xiaosen
author_sort Zeng, Haopeng
title Study on Hydrate Production Behaviors by Depressurization Combined with Brine Injection in the Excess-Water Hydrate Reservoir
title_short Study on Hydrate Production Behaviors by Depressurization Combined with Brine Injection in the Excess-Water Hydrate Reservoir
title_full Study on Hydrate Production Behaviors by Depressurization Combined with Brine Injection in the Excess-Water Hydrate Reservoir
title_fullStr Study on Hydrate Production Behaviors by Depressurization Combined with Brine Injection in the Excess-Water Hydrate Reservoir
title_full_unstemmed Study on Hydrate Production Behaviors by Depressurization Combined with Brine Injection in the Excess-Water Hydrate Reservoir
title_sort study on hydrate production behaviors by depressurization combined with brine injection in the excess-water hydrate reservoir
publisher MDPI
publishDate 2022
url http://ir.giec.ac.cn/handle/344007/36919
http://ir.giec.ac.cn/handle/344007/36920
https://doi.org/10.3390/e24060765
genre Methane hydrate
genre_facet Methane hydrate
op_relation ENTROPY
http://ir.giec.ac.cn/handle/344007/36919
http://ir.giec.ac.cn/handle/344007/36920
doi:10.3390/e24060765
op_doi https://doi.org/10.3390/e24060765
container_title Entropy
container_volume 24
container_issue 6
container_start_page 765
_version_ 1786207608839864320

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