EXPERIMENTAL STUDY OF THE INFLUENCE OF SALINITY AND EMULSIFIER ON THE MICROWAVE HEATING PROCESS EFFICIENCY FOR HEAVY OIL RECOVERY
Conventional thermal recovery techniques have long been seen as a solution for production of heavy oil and bitumen. Most of thermal recovery techniques such as; cyclic steam stimulation, steam drive, and forward in-situ combustion faces a common challenge of depth limitation. Also, they cannot wo...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/40398 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Conventional thermal recovery techniques have long been seen as a solution for
production of heavy oil and bitumen. Most of thermal recovery techniques such
as; cyclic steam stimulation, steam drive, and forward in-situ combustion faces a
common challenge of depth limitation. Also, they cannot work well in highly
heterogeneous formations. Microwave heating is considered to be the best
alternative for heavy oil recovery since it overcomes the depth limitation found in
other thermal recoveries also, it can avoid excessive water usage and minimize
carbon emission. Furthermore, Microwave heating technique can work well in
water hostile reservoirs such as shale oil reservoirs. However, it is imperative to
enhance the microwave-thermal recovery process efficiency so that less energy
can be spent during the heavy oil recovery process.
In this study, a series of laboratory experiments were conducted to investigate the
influence of oil based emulsifier and salinity concertation on the microwave
heating process efficiency. Sand pack samples were prepared to simulate a
reservoir in the form of core that is saturated with heavy oil and formation water.
The first case involved heating the sand pack with varying concentrations of oil
based emulsifier percentage saturations (i.e. 0%, 3%, 7% and 10%). And the
second case involved heating the sand pack with different sodium chloride
concentrations (500,000ppm, 100,000 and 350,000ppm). In both cases the sand
pack samples were heated until the measuring point reaches 90°C. The
experiments were conducted at different microwave power levels (i.e. 180-Watt, 378-Watt, 468-Watt, 657Watt, 792Watt, and 900Watt). The changes in sand pack
temperature with time were recorded during the experiments.
From both cases it has been observed that, the increase in salinity concentrations
reduce the microwave heating time to reach 90°C. While the increase in oil based
emulsifier delays the microwave heating process to reach 90°C. Also, microwave
heating with salinity increase needs little energy to heat the sand pack to 90°C,
while the experiment with oil based emulsifier need much power to heat the sand
pack to 90°C. |
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