石油实验地质
石油實驗地質
석유실험지질
Petroleum Geology and Experiment
2015年
5期
660-664
,共5页
吸附体系%吸附特性曲线%页岩气%页岩
吸附體繫%吸附特性麯線%頁巖氣%頁巖
흡부체계%흡부특성곡선%혈암기%혈암
adsorption system%characteristic adsorption curves%shale gas%shale
页岩对气体的吸附能力评价是页岩气研究的基础工作,兰氏体积数据是评价页岩气体吸附能力的重要参数,但局限于兰氏体积的应用研究不能满足工作需要,现有数据的信息挖掘和应用还有较大的空间。页岩与气体构成的吸附体系,对气体的吸附能力、特性可以利用吸附势理论进行分析和描述。实验数据分析表明,页岩与不同气体构成不同的吸附体系,具有不同的吸附特性曲线,吸附特性曲线基本不受温度影响,可以用于等温吸附曲线的预测。以川东南五峰—龙马溪组优质页岩为例,进行了地层条件下页岩气体吸附能力的预测。预测结果显示,页岩样品地层条件下的吸附气量与兰氏体积存在较大差异,这种差异反映了温度和压力对页岩气体吸附能力的影响和控制作用,暗示地层条件下页岩吸附气量预测研究具有理论和实践意义。
頁巖對氣體的吸附能力評價是頁巖氣研究的基礎工作,蘭氏體積數據是評價頁巖氣體吸附能力的重要參數,但跼限于蘭氏體積的應用研究不能滿足工作需要,現有數據的信息挖掘和應用還有較大的空間。頁巖與氣體構成的吸附體繫,對氣體的吸附能力、特性可以利用吸附勢理論進行分析和描述。實驗數據分析錶明,頁巖與不同氣體構成不同的吸附體繫,具有不同的吸附特性麯線,吸附特性麯線基本不受溫度影響,可以用于等溫吸附麯線的預測。以川東南五峰—龍馬溪組優質頁巖為例,進行瞭地層條件下頁巖氣體吸附能力的預測。預測結果顯示,頁巖樣品地層條件下的吸附氣量與蘭氏體積存在較大差異,這種差異反映瞭溫度和壓力對頁巖氣體吸附能力的影響和控製作用,暗示地層條件下頁巖吸附氣量預測研究具有理論和實踐意義。
혈암대기체적흡부능력평개시혈암기연구적기출공작,란씨체적수거시평개혈암기체흡부능력적중요삼수,단국한우란씨체적적응용연구불능만족공작수요,현유수거적신식알굴화응용환유교대적공간。혈암여기체구성적흡부체계,대기체적흡부능력、특성가이이용흡부세이론진행분석화묘술。실험수거분석표명,혈암여불동기체구성불동적흡부체계,구유불동적흡부특성곡선,흡부특성곡선기본불수온도영향,가이용우등온흡부곡선적예측。이천동남오봉—룡마계조우질혈암위례,진행료지층조건하혈암기체흡부능력적예측。예측결과현시,혈암양품지층조건하적흡부기량여란씨체적존재교대차이,저충차이반영료온도화압력대혈암기체흡부능력적영향화공제작용,암시지층조건하혈암흡부기량예측연구구유이론화실천의의。
The study of the gas adsorption capacity of shales is a basic tenet of shale gas research. The Langmuir’ s volume is an important parameter when evaluating the gas adsorption capacity of shales. The adsorption potential theory was applied here to study the gas adsorption capacity and characteristics of the adsorption systems in shales for different gases. Experiments showed that different adsorption curves were obtained for the adsorption systems of shales and different gases. These curves were not influenced by temperature and so could be used in the prediction of isothermal adsorption curves. Some shale samples were collected from the Wufeng and Longmaxi for?mations in the southeastern Sichuan Basin, and were tested to predict their adsorption capacity under formation conditions. It was found that the adsorption amount was obviously different from the Langmuir’ s volume, which demonstrated the controlling effects of temperature and pressure on the adsorption capacity of shales.
