沸石β纳米颗粒吸附沥青质以减少硅砂充填中沥青质沉积的研究

Sepideh Kashefi, M. Lotfollahi, A. Shahrabadi
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引用次数: 24

摘要

沸石纳米颗粒被用作一种新的沥青质吸附剂,用于减少硅砂充填流体注入过程中的沥青质沉积。首先用紫外-可见分光光度计测定了纳米沸石对沥青质的吸附效率和吸附容量。结果表明,纳米颗粒吸附沥青质的适宜浓度为10 g/L,沸石对沥青质的最大吸附量为1.98 mg/m2。其次,进行了两项动态实验,包括在填砂过程中使用和不使用沸石纳米颗粒的情况下,共注入原油和正庚烷(作为沥青质沉淀剂)。结果表明,与未使用纳米颗粒相比,使用沸石纳米颗粒可使渗透率比和出口流体沥青质含量分别提高约22%和40%。此外,研究人员还建立了一个基于单层沥青烯在纳米颗粒上吸附和沥青烯沉积机制(包括表面沉积、夹带和孔喉堵塞)的模型,以确定原油和正庚烷共注入砂层时对地层的损害。该模型对渗透率和孔隙度的预测效果较好,AAD%分别为1.07和0.07。
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Investigation of Asphaltene Adsorption onto Zeolite Beta Nanoparticles to Reduce Asphaltene Deposition in a Silica Sand Pack
Zeolite beta nanoparticles were used as a new asphaltene adsorbent for reducing asphaltene deposition during fluid injection into a silica sand pack. At first, the asphaltene adsorption efficiency and capacity of zeolite beta nanoparticles were determined by UV-Vis spectrophotometer. It was found that the proper concentration of nanoparticles for asphaltene adsorption was 10 g/L and the maximum asphaltene adsorption onto zeolite beta was 1.98 mg/m2 . Second, two dynamic experiments including co-injection of crude oil and n-heptane (as an asphaltene precipitant) with and without use of zeolite beta nanoparticles in the sand pack was carried out. The results showed that the use of zeolite beta nanoparticles increased the permeability ratio and outlet fluid's asphaltene content about 22% and 40% compared to without use of nanoparticles, respectively. Moreover, a model based on monolayer asphaltene adsorption onto nanoparticles and asphaltene deposition mechanisms including surface deposition, entrainment and pore throat plugging was developed to determine formation damage during co-injection of crude oil and n-heptane into the sand pack. The proposed model presented good prediction of permeability and porosity ratios with AAD% of 1.07 and 0.07, respectively.
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