化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
2期
605-612
,共8页
陈普敏%韩善鹏%李鸿英%张劲军
陳普敏%韓善鵬%李鴻英%張勁軍
진보민%한선붕%리홍영%장경군
扩散%层流%传质%泰勒分散法%蜡沉积
擴散%層流%傳質%泰勒分散法%蠟沉積
확산%층류%전질%태륵분산법%사침적
diffusion%laminar flow%mass transfer%Taylor dispersion method%wax deposition
蜡分子扩散系数是蜡沉积预测模型中非常重要的物性参数。为测量蜡分子(高碳数正构烷烃)在液相体系中的分子扩散系数,建立了基于泰勒分散法的扩散系数测量装置,并对装置操作注意事项进行了详细探讨。采用该装置测量了丙酮水溶液、n-C6+n-C7溶液以及甲醇水溶液中溶质在溶剂中的分子扩散系数,以文献值对测量值进行校验,验证了装置的可靠性。分别以n-C18、n-C20、n-C22、n-C24、n-C26为溶质,以n-C7为溶剂,在不同温度、浓度下测量蜡分子在液相体系中的分子扩散系数,并将实验测量值与Hayduck-Minhas关系式计算值进行比较。结果表明:蜡分子扩散系数随温度升高而线性增大,随溶液中蜡分子摩尔分数的增大而以指数形式减小;在相同条件下,高碳数正构烷烃的分子扩散系数低于低碳数正构烷烃的分子扩散系数。采用Hayduck-Minhas关系式的计算结果比实验测量结果平均小50%,应用于蜡沉积预测时,将低估蜡分子扩散质量流。
蠟分子擴散繫數是蠟沉積預測模型中非常重要的物性參數。為測量蠟分子(高碳數正構烷烴)在液相體繫中的分子擴散繫數,建立瞭基于泰勒分散法的擴散繫數測量裝置,併對裝置操作註意事項進行瞭詳細探討。採用該裝置測量瞭丙酮水溶液、n-C6+n-C7溶液以及甲醇水溶液中溶質在溶劑中的分子擴散繫數,以文獻值對測量值進行校驗,驗證瞭裝置的可靠性。分彆以n-C18、n-C20、n-C22、n-C24、n-C26為溶質,以n-C7為溶劑,在不同溫度、濃度下測量蠟分子在液相體繫中的分子擴散繫數,併將實驗測量值與Hayduck-Minhas關繫式計算值進行比較。結果錶明:蠟分子擴散繫數隨溫度升高而線性增大,隨溶液中蠟分子摩爾分數的增大而以指數形式減小;在相同條件下,高碳數正構烷烴的分子擴散繫數低于低碳數正構烷烴的分子擴散繫數。採用Hayduck-Minhas關繫式的計算結果比實驗測量結果平均小50%,應用于蠟沉積預測時,將低估蠟分子擴散質量流。
사분자확산계수시사침적예측모형중비상중요적물성삼수。위측량사분자(고탄수정구완경)재액상체계중적분자확산계수,건립료기우태륵분산법적확산계수측량장치,병대장치조작주의사항진행료상세탐토。채용해장치측량료병동수용액、n-C6+n-C7용액이급갑순수용액중용질재용제중적분자확산계수,이문헌치대측량치진행교험,험증료장치적가고성。분별이n-C18、n-C20、n-C22、n-C24、n-C26위용질,이n-C7위용제,재불동온도、농도하측량사분자재액상체계중적분자확산계수,병장실험측량치여Hayduck-Minhas관계식계산치진행비교。결과표명:사분자확산계수수온도승고이선성증대,수용액중사분자마이분수적증대이이지수형식감소;재상동조건하,고탄수정구완경적분자확산계수저우저탄수정구완경적분자확산계수。채용Hayduck-Minhas관계식적계산결과비실험측량결과평균소50%,응용우사침적예측시,장저고사분자확산질량류。
The diffusion coefficient of paraffin molecules is of importance in the wax deposition prediction models. In this work, an instrument based on the principle of Taylor dispersion method was built in order to measure the diffusion coefficient of paraffin molecules in the model crude oil. The newly developed apparatus was carefully calibrated and adequate operating conditions were summarized. Measured with this apparatus, the diffusion coefficients (DAB) of methanol in water, acetone in water, and hexane in heptane agree with those in literature, with an absolute deviation 1.13%. Using heptane as the solvent, six binary solutions were prepared with n-C18, n-C20, n-C22, n-C24 and n-C26 as solute. DAB of a solute in a solvent was measured at the temperature from 30°C to 50°C. It is found that the diffusion coefficient of paraffin molecules increases linearly with temperature. As solute concentration increases, diffusion coefficients decrease exponentially. In the same solvent, paraffin molecules with longer chain present higher diffusion coefficient. The measured DAB is compared to that obtained by empirical equation. The calculated DAB by Hayduck-Minhas correlation are 50%lower than measured values. Obviously, the wax deposition prediction models employing Hayduck-Minhas correlation will underestimate the mass flux of wax molecules from the main flow to the pipe wall.