现代地质
現代地質
현대지질
GEOSCIENCE-JOURNAL OF GRADUATE SCHOOL CHINA UNIVERSITY OF GEOSCIENCES
2013年
6期
1373-1378
,共6页
贾佳林%张郁%李刚%陈朝阳%李小森%吴慧杰
賈佳林%張鬱%李剛%陳朝暘%李小森%吳慧傑
가가림%장욱%리강%진조양%리소삼%오혜걸
南海海泥%甲烷水合物%生成特性
南海海泥%甲烷水閤物%生成特性
남해해니%갑완수합물%생성특성
sea mud from South China Sea%methane hydrate%formation behaviour
在定容条件下,实验研究了甲烷水合物在含水量不同的多孔海泥中的生成特性。所使用的海泥平均孔径为12.178 nm,总孔容为4.997×10-2 ml/g,比表面积为16.412 m2/g。所用海泥样品含水量为40%,实验的温度范围为274.15~281.15 K,初始生成压力范围为10.2~14.4 MPa。实验结果表明,甲烷水合物在海泥中的生成速率以及气体消耗量随着初始压力的增加而增大,随着温度的降低而增大。海泥的复杂孔隙结构能够促进水合物的成核,但会降低水的最终转化率,其作用随着温度的升高与压力的降低而增大。
在定容條件下,實驗研究瞭甲烷水閤物在含水量不同的多孔海泥中的生成特性。所使用的海泥平均孔徑為12.178 nm,總孔容為4.997×10-2 ml/g,比錶麵積為16.412 m2/g。所用海泥樣品含水量為40%,實驗的溫度範圍為274.15~281.15 K,初始生成壓力範圍為10.2~14.4 MPa。實驗結果錶明,甲烷水閤物在海泥中的生成速率以及氣體消耗量隨著初始壓力的增加而增大,隨著溫度的降低而增大。海泥的複雜孔隙結構能夠促進水閤物的成覈,但會降低水的最終轉化率,其作用隨著溫度的升高與壓力的降低而增大。
재정용조건하,실험연구료갑완수합물재함수량불동적다공해니중적생성특성。소사용적해니평균공경위12.178 nm,총공용위4.997×10-2 ml/g,비표면적위16.412 m2/g。소용해니양품함수량위40%,실험적온도범위위274.15~281.15 K,초시생성압력범위위10.2~14.4 MPa。실험결과표명,갑완수합물재해니중적생성속솔이급기체소모량수착초시압력적증가이증대,수착온도적강저이증대。해니적복잡공극결구능구촉진수합물적성핵,단회강저수적최종전화솔,기작용수착온도적승고여압력적강저이증대。
The formation behaviors of methane hydrate in the sea mud from South China Sea were studied.The sea mud with mean pore diameter of 12.178 nm and total pore volume of 4.997 ×10 -2 ml /g,surface area of 16.412 m2 /g was used for the experiments.The mass fraction of water in the sea mud is 40%.The experiments were carried out at the temperature range of 274.15 -281.15 K and the initial formation pressure range of 10.2-14.4 MPa.The experiment results show that the formation rate of methane hydrate in the sea mud and the gas consumption increase with the increase of initial formation pressure and increase with the decrease of tempera-ture.The complex pore structure of the sea mud can promote the nucleation of the hydrate,but reduce the final conversion of the water,and this effect will be strengthened with the increase of the temperature and the de-crease of the initial formation pressure.
