西南石油大学学报(自然科学版)
西南石油大學學報(自然科學版)
서남석유대학학보(자연과학판)
JOURNAL OF SOUTHWEST PETROLEUM UNIVERSITY(SEIENCE & TECHNOLOGY EDITION)
2014年
1期
89-94
,共6页
贾英兰%贾永禄%周霞%景洋%聂仁仕
賈英蘭%賈永祿%週霞%景洋%聶仁仕
가영란%가영록%주하%경양%섭인사
封闭油藏%注水%阶段注采比%含水率%相对渗透率
封閉油藏%註水%階段註採比%含水率%相對滲透率
봉폐유장%주수%계단주채비%함수솔%상대삼투솔
closed reservoir%water injection%stage injection-production ratio%water cut%relative permeability
目前的阶段注采比计算方法只考虑了地层压力或含水率等单个因素的影响,而实际开发中,注采比的大小受油藏压力、含水率、累积水油比等多因素的影响。针对这一问题,利用累积注水量与累积产油量的半对数关系式,结合封闭油藏物质平衡方程,推导了阶段注采比与累积产油量、地层压力和含水率的关系式。再利用累积产油量与含水饱和度的关系式、两种不同相对渗透率与含水饱和度的关系式,推导了两种阶段注采比的计算关系式。最后,实例计算结果表明:研究的计算方法可用于封闭油藏注水开发的阶段注采比计算与预测。
目前的階段註採比計算方法隻攷慮瞭地層壓力或含水率等單箇因素的影響,而實際開髮中,註採比的大小受油藏壓力、含水率、纍積水油比等多因素的影響。針對這一問題,利用纍積註水量與纍積產油量的半對數關繫式,結閤封閉油藏物質平衡方程,推導瞭階段註採比與纍積產油量、地層壓力和含水率的關繫式。再利用纍積產油量與含水飽和度的關繫式、兩種不同相對滲透率與含水飽和度的關繫式,推導瞭兩種階段註採比的計算關繫式。最後,實例計算結果錶明:研究的計算方法可用于封閉油藏註水開髮的階段註採比計算與預測。
목전적계단주채비계산방법지고필료지층압력혹함수솔등단개인소적영향,이실제개발중,주채비적대소수유장압력、함수솔、루적수유비등다인소적영향。침대저일문제,이용루적주수량여루적산유량적반대수관계식,결합봉폐유장물질평형방정,추도료계단주채비여루적산유량、지층압력화함수솔적관계식。재이용루적산유량여함수포화도적관계식、량충불동상대삼투솔여함수포화도적관계식,추도료량충계단주채비적계산관계식。최후,실례계산결과표명:연구적계산방법가용우봉폐유장주수개발적계단주채비계산여예측。
At present,the calculation methods of stage injection-production ratio only considered a single factor,such as formation pressure or water cut;however,the stage injection-production ratio is controlled by many factors,such as formation pressure,water cut and cumulative water-oil production ratio in real development. To solve the problem,we derived the relationship formulation of stage injection-production ratio with cumulative oil production,formation pressure and water cut using the semi-logarithmical curve of cumulative water injection with cumulative oil production,combining the material balance equation of closed reservoir. Then two calculation formulations of stage injection-production ratio were further derived using the relationship formulation of cumulative oil production with water saturation and the two relationship formulations of relative permeability with water saturation. At the end,calculations of stage injection-production ratio using the above two calculation formulations for an example closed reservoir with water-injection development history showed that the new calculation methods are applicable and useful.