EFFECT OF MICROCELLULOSE FROM CORNCOB ON ROCK SURFACES FOR APPLICATION AS ENHANCED OIL RECOVERY
The important factors in petroleum production are the nature of the reservoir rock surface and the <br /> <br /> interaction between oil and water in the reservoir. Both of these factors can affect microscopic efficiency <br /> <br /> in increasing oil recovery. In this study...
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id-itb.:274482018-09-18T13:21:49ZEFFECT OF MICROCELLULOSE FROM CORNCOB ON ROCK SURFACES FOR APPLICATION AS ENHANCED OIL RECOVERY SUKMARANI (NIM:10514069), GALUH Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/27448 The important factors in petroleum production are the nature of the reservoir rock surface and the <br /> <br /> interaction between oil and water in the reservoir. Both of these factors can affect microscopic efficiency <br /> <br /> in increasing oil recovery. In this study, microcellulose was tested as a potential agent to increase oil <br /> <br /> recovery. Microcellulose is used to alter the wettability of reservoir rocks and decrease interfacial tension <br /> <br /> between oil and water. Microcellulose is a micro cellulose with particle size ranging from 30 nm to 20μm. <br /> <br /> This study aims to determine the effect of microcellulose on rock wettability and interfacial tension <br /> <br /> between oil and water. Microcellulose is obtained through the process of cellulose hydrolysis isolated <br /> <br /> from corncob. The results of hydrolysis reaction were characterized using FTIR to determine the <br /> <br /> functional group, Scanning Electron Microscope (SEM) to determine morphology. The particle size was <br /> <br /> determined using Particle Size Analyzer, changes in wettability were determined from contact angle <br /> <br /> measurements, and interfacial tension measurements. The results of the study obtained microcellulose as <br /> <br /> a result of hydrolysis reaction with an average diameter of 2.9 μm and 14 μm. The addition of <br /> <br /> microcellulose can changes rock wettabillity more hydrophylic. The higher concentration of <br /> <br /> microcellulose the rock surfaces become more hydrophylic. The experimental results show that the <br /> <br /> addition of microcellulose can decrease interfacial tension between oil and water 60.2%. According to <br /> <br /> these data microcellulose has the potential to be used as an economic and environmentally friendly oil <br /> <br /> recovery agent. text |
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The important factors in petroleum production are the nature of the reservoir rock surface and the <br />
<br />
interaction between oil and water in the reservoir. Both of these factors can affect microscopic efficiency <br />
<br />
in increasing oil recovery. In this study, microcellulose was tested as a potential agent to increase oil <br />
<br />
recovery. Microcellulose is used to alter the wettability of reservoir rocks and decrease interfacial tension <br />
<br />
between oil and water. Microcellulose is a micro cellulose with particle size ranging from 30 nm to 20μm. <br />
<br />
This study aims to determine the effect of microcellulose on rock wettability and interfacial tension <br />
<br />
between oil and water. Microcellulose is obtained through the process of cellulose hydrolysis isolated <br />
<br />
from corncob. The results of hydrolysis reaction were characterized using FTIR to determine the <br />
<br />
functional group, Scanning Electron Microscope (SEM) to determine morphology. The particle size was <br />
<br />
determined using Particle Size Analyzer, changes in wettability were determined from contact angle <br />
<br />
measurements, and interfacial tension measurements. The results of the study obtained microcellulose as <br />
<br />
a result of hydrolysis reaction with an average diameter of 2.9 μm and 14 μm. The addition of <br />
<br />
microcellulose can changes rock wettabillity more hydrophylic. The higher concentration of <br />
<br />
microcellulose the rock surfaces become more hydrophylic. The experimental results show that the <br />
<br />
addition of microcellulose can decrease interfacial tension between oil and water 60.2%. According to <br />
<br />
these data microcellulose has the potential to be used as an economic and environmentally friendly oil <br />
<br />
recovery agent. |
| format |
Final Project |
| author |
SUKMARANI (NIM:10514069), GALUH |
| spellingShingle |
SUKMARANI (NIM:10514069), GALUH EFFECT OF MICROCELLULOSE FROM CORNCOB ON ROCK SURFACES FOR APPLICATION AS ENHANCED OIL RECOVERY |
| author_facet |
SUKMARANI (NIM:10514069), GALUH |
| author_sort |
SUKMARANI (NIM:10514069), GALUH |
| title |
EFFECT OF MICROCELLULOSE FROM CORNCOB ON ROCK SURFACES FOR APPLICATION AS ENHANCED OIL RECOVERY |
| title_short |
EFFECT OF MICROCELLULOSE FROM CORNCOB ON ROCK SURFACES FOR APPLICATION AS ENHANCED OIL RECOVERY |
| title_full |
EFFECT OF MICROCELLULOSE FROM CORNCOB ON ROCK SURFACES FOR APPLICATION AS ENHANCED OIL RECOVERY |
| title_fullStr |
EFFECT OF MICROCELLULOSE FROM CORNCOB ON ROCK SURFACES FOR APPLICATION AS ENHANCED OIL RECOVERY |
| title_full_unstemmed |
EFFECT OF MICROCELLULOSE FROM CORNCOB ON ROCK SURFACES FOR APPLICATION AS ENHANCED OIL RECOVERY |
| title_sort |
effect of microcellulose from corncob on rock surfaces for application as enhanced oil recovery |
| url |
https://digilib.itb.ac.id/gdl/view/27448 |
| _version_ |
1822922251624775680 |