石油钻探技术
石油鑽探技術
석유찬탐기술
PETROLEUM DRILLING TECHNIQUES
2014年
5期
104-108
,共5页
唐述凯%李明忠%刘陈伟%张国栋
唐述凱%李明忠%劉陳偉%張國棟
당술개%리명충%류진위%장국동
闭式热流体循环%数学模型%温度分布%循环参数%生产参数
閉式熱流體循環%數學模型%溫度分佈%循環參數%生產參數
폐식열류체순배%수학모형%온도분포%순배삼수%생산삼수
closed hot fluid circulation%mathematic model%temperature distribution%circulation param-eter%production parameter
为了合理配备闭式热流体循环降黏设备、设定循环参数,利用传热学相关理论,建立了闭式热流体循环井加热段和非加热段的井筒温度场模型,结合模型的定解条件,对井筒压力和温度进行耦合求得数值解。利用建立的模型对采用闭式热流体循环降黏4口井产出液和上返液的井口温度进行了预测,并探讨了生产参数和循环参数对井筒加热效果的影响,结果表明:预测的产出液和上返液的井口温度与实测结果相比平均相对误差分别为3.08%和1.38%,符合工程要求;产出液量每增加1 t/d ,产出液温度降低0.1345℃;含水率每升高10%,产出液温度降低0.161℃;随注入循环量的增大和注入温度的升高,产出液温度升高,但注入温度对产出液温度影响较大。利用闭式热流体循环井筒温度场模型分析井筒温度场,可以为闭式热流体循环降黏设计提供依据。
為瞭閤理配備閉式熱流體循環降黏設備、設定循環參數,利用傳熱學相關理論,建立瞭閉式熱流體循環井加熱段和非加熱段的井筒溫度場模型,結閤模型的定解條件,對井筒壓力和溫度進行耦閤求得數值解。利用建立的模型對採用閉式熱流體循環降黏4口井產齣液和上返液的井口溫度進行瞭預測,併探討瞭生產參數和循環參數對井筒加熱效果的影響,結果錶明:預測的產齣液和上返液的井口溫度與實測結果相比平均相對誤差分彆為3.08%和1.38%,符閤工程要求;產齣液量每增加1 t/d ,產齣液溫度降低0.1345℃;含水率每升高10%,產齣液溫度降低0.161℃;隨註入循環量的增大和註入溫度的升高,產齣液溫度升高,但註入溫度對產齣液溫度影響較大。利用閉式熱流體循環井筒溫度場模型分析井筒溫度場,可以為閉式熱流體循環降黏設計提供依據。
위료합리배비폐식열류체순배강점설비、설정순배삼수,이용전열학상관이론,건립료폐식열류체순배정가열단화비가열단적정통온도장모형,결합모형적정해조건,대정통압력화온도진행우합구득수치해。이용건립적모형대채용폐식열류체순배강점4구정산출액화상반액적정구온도진행료예측,병탐토료생산삼수화순배삼수대정통가열효과적영향,결과표명:예측적산출액화상반액적정구온도여실측결과상비평균상대오차분별위3.08%화1.38%,부합공정요구;산출액량매증가1 t/d ,산출액온도강저0.1345℃;함수솔매승고10%,산출액온도강저0.161℃;수주입순배량적증대화주입온도적승고,산출액온도승고,단주입온도대산출액온도영향교대。이용폐식열류체순배정통온도장모형분석정통온도장,가이위폐식열류체순배강점설계제공의거。
To configure the closed equipment with hot fluid circulation and set its circulation parame-ters properly ,the temperature field model was established for heating and non-heating sections of a closed wellbore with hot fluid circulation on the basis of relevant heat transfer theories .Under the condition of definite solution ,the model was used to determine the coupling values of pressure and temperature in well-bore .Moreover ,the model was also used to predict the wellhead temperature of fluids produced and re-turned in four closed wells in which hot fluids were circulated ,and the influences of production and circula-tion parameters on wellbore heating were discussed .The results showed that the average error of predicted wellhead temperature of fluids produced and returned was 3.08% and 1.38% respectively ,compared with the measured values ,w hich meet the engineering requirements ;the temperature of fluid produced declined by 0.134 5 ℃ if fluid volume increased one ton per day ,and declined 0.161 ℃ if water cut increased by 10% ;and the temperature of produced fluids rises with the increase of circulation rate and injecting temperature ,which is the main factor to affect the heating effects .The method can provide basis for the design of the hot fluid circulation in closed wellbore to lower viscosity of produced fluids by modeling the temperature field .
