辽宁石油化工大学学报
遼寧石油化工大學學報
료녕석유화공대학학보
JOURNAL OF LIAONING UNIVERSITY OF PETROLEUM & CHEMICAL TECHNOLOGY
2015年
4期
40-43
,共4页
孙常龙%王岳%邵慧龙%安建宁%赵亚东%杨奇睿
孫常龍%王嶽%邵慧龍%安建寧%趙亞東%楊奇睿
손상룡%왕악%소혜룡%안건저%조아동%양기예
油页岩%电加热%热解%模拟%等温线
油頁巖%電加熱%熱解%模擬%等溫線
유혈암%전가열%열해%모의%등온선
Oil shale%Electric heating%Pyrolysis%Simulation%Isotherm
针对原位电法加热油页岩层的问题,运用 FLUENT 模拟仿真软件建立油页岩层的物理模型,并对油页岩的温度场分布进行了数值分析。分析结果表明,加热效率随着时间逐渐升高,当加热井与产油井交换加热时,加热效率显著提高。当加热时间小于3 a 时,油页岩层温度均匀地增加,但是没有达到油页岩集中热裂解所需的温度;加热时间大于3 a 时,油页岩层温度升高到350~500℃,达到了油页岩集中热裂解所需的温度。油页岩热裂解后其导热系数、孔隙度和渗透性都会随着油页岩温度的升高而增加。由此可见,对油页岩温度场进行分析与控制,有助于提高油页岩的加热效率和产量。
針對原位電法加熱油頁巖層的問題,運用 FLUENT 模擬倣真軟件建立油頁巖層的物理模型,併對油頁巖的溫度場分佈進行瞭數值分析。分析結果錶明,加熱效率隨著時間逐漸升高,噹加熱井與產油井交換加熱時,加熱效率顯著提高。噹加熱時間小于3 a 時,油頁巖層溫度均勻地增加,但是沒有達到油頁巖集中熱裂解所需的溫度;加熱時間大于3 a 時,油頁巖層溫度升高到350~500℃,達到瞭油頁巖集中熱裂解所需的溫度。油頁巖熱裂解後其導熱繫數、孔隙度和滲透性都會隨著油頁巖溫度的升高而增加。由此可見,對油頁巖溫度場進行分析與控製,有助于提高油頁巖的加熱效率和產量。
침대원위전법가열유혈암층적문제,운용 FLUENT 모의방진연건건립유혈암층적물리모형,병대유혈암적온도장분포진행료수치분석。분석결과표명,가열효솔수착시간축점승고,당가열정여산유정교환가열시,가열효솔현저제고。당가열시간소우3 a 시,유혈암층온도균균지증가,단시몰유체도유혈암집중열렬해소수적온도;가열시간대우3 a 시,유혈암층온도승고도350~500℃,체도료유혈암집중열렬해소수적온도。유혈암열렬해후기도열계수、공극도화삼투성도회수착유혈암온도적승고이증가。유차가견,대유혈암온도장진행분석여공제,유조우제고유혈암적가열효솔화산량。
According to the technology of situ electrical heating on oil shale,a physical model was established by FLUENT. Numerical analysis of temperature field distribution of oil shale was carried out.In this model,the healing efficiency was increased by time,which was obviously increased when the heating well and oil well exchange heating.When the heating time was less than 3 a,the temperature of oil shale layer was increased steadily.But it did not reach the temperature that oil shale pyrolysis required.When the heating time was greater than 3 a,the temperature of oil shale layer was reached to 350~500 ℃. And it reached the temperature that oil shale pyrolysis required.After pyrolysis,the thermal conductivity,porosity and permeability of oil shale were increased while the temperature was elevated.Therefore,the analysis and control of temperature field of oil shale was helpful to improve the heating efficiency and production of oil shale.
