提取绿草冻叶作为聚合物灌注的替代生物聚合物

Dita Putri Purnama, Anas Hidayat, M. K. Afdhol, Fiki Hidayat
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摘要

来自绿草果冻叶的生物聚合物因其更友好的环境状况和提供原材料的成本效益而备受关注。本研究旨在探索从绿草蜇叶中提取生物聚合物作为合成聚合物替代品的潜力,以提高石油采收率,其中包括连续的预处理、提取和表征阶段,以获得必需的果胶化合物。本实验的核心是从绿草蜇叶中提取生物聚合物,包括预处理、萃取和表征等连续步骤,以获得必需的果胶化合物。表征采用了扫描电子显微镜(SEM)和傅立叶变换红外光谱(FTIR)。在浓度为 3000 ppm 时,绿草冻叶生物聚合物的峰值粘度为 2.04 cp,而果胶的粘度为 1.98 cp。相比之下,工业生物聚合物黄原胶在 3000 ppm 浓度下的粘度明显更高,为 95.01 cp。储藏条件(30°C 和 60°C)下的热稳定性评估表明,绿草冻叶生物聚合物果胶在 3000 ppm 浓度下的峰值粘度分别为 55.29 cP 和 51.77 cP。这些结果表明,生物聚合物与合成聚合物之间的差异不大,而且随着浓度的增加,粘度也会增加,这可以提高清扫效率。
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Extraction of Green Grass Jelly Leaves as An Alternative Biopolymer in Polymer Flooding
Biopolymer from Green Grass Jelly Leaves attracts attention due to its friendlier environmental profile and cost-effectiveness in providing raw materials. This research aims to explore the potential of biopolymers from Green Grass Jelly Leaves as an alternative to synthetic polymers in an effort to increase oil recovery involving sequential pretreatment, extraction, and characterization stages to obtain essential pectin compounds. This experiment centers on a biopolymer sourced from Green Grass Jelly Leaves, involving sequential steps of pretreatment, extraction, and characterization to obtain essential pectin compounds. Characterization employed scanning electron microscopy (SEM) and Fourier-transform infrared spectroscopy (FTIR). The recorded peak viscosity for Green Grass Jelly Leaves biopolymer was 2.04 cp at 3000 ppm concentration, contrasting with pectin's 1.98 cp viscosity. In comparison, industrial biopolymer Xanthan Gum displayed significantly higher viscosity at 95.01 cp for 3000 ppm concentration. Thermal stability assessment under reservoir conditions (30°C and 60°C) demonstrated that Green Grass Jelly Leaves biopolymer pectin exhibited peak viscosities of 55.29 cP and 51.77 cP at 3000 ppm concentration, respectively. These results show that the comparison between biopolymer and synthetic polymer is not too far and there is an increase in viscosity as the concentration increases, which can increase sweep efficiency.
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