摘要：Hydrate reformation may lead to production line blockage in the development of natural gas hydrate reservoirs. However, few studies have focused on the flow characteristics and plugging risks during the hydrate reformation process. Therefore, experiments on hydrate reformation were carried out in a high-pressure flow loop. The hydrate induction time and formation subcooling approached for the first hydrate formation and reformation. The pressure and temperature of the first formation and reformation onset fell in a subcooling band (2.0 ± 0.5 °C). Furthermore, the flow stability of hydrate slurry for the reformation process was relatively poor compared with the first formation. Hydrate particles aggregated more violently during the reformation process when the initial flow rate was 1160 kg∙h⁻¹. Moreover, the hydrate memory effect at the microlevel could be confirmed from two aspects, including an increasing number of methane microbubbles (MMBs) after hydrate dissociation and a shorter time required for the decrease in the number of MMBs during the reformation process. Then, the flow pattern evolutions were summarized for different experimental conditions, and the minimum flow rate of hydrate slurry with the stable flow ability could be predicted using the classical correlation. Finally, a prediction model was developed for predicting the pressure drop in hydrate slurry flow, which considered the hydraulic, particle-aggregation, and hydrate–liquid friction effects. The findings of this work provided an insight into the behavior of methane hydrate reformation in water-dominated bubbly flow, which is an advancing research topic in the field of development of natural gas hydrate reservoirs.
© 2019 Elsevier Ltd

ISSN号：0016-2361

卷、期、页：v 263,

发表日期：2020-01-01

收录情况：SCIE（科学引文索引网络版）

发表期刊名称：Fuel

参与作者：姚海元,柳扬,吕晓方,Lou, Xia

通讯作者：陈玉川,宋尚飞,宋尚飞

第一作者：宫敬,史博会,吴海浩

论文类型：期刊论文

论文概要：陈玉川,宫敬,史博会,姚海元,柳扬,宋尚飞,宋尚飞,吕晓方,吴海浩,Lou, Xia，Investigation into methane hydrate reformation in water-dominated bubbly flow，Fuel，2020，v 263,

论文题目：Investigation into methane hydrate reformation in water-dominated bubbly flow