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In a continuous gas lift system, gas is injected down the annulus into the tubing through valve injection. Gas will mix with reservoir fluid and give an effect to fluid temperature along in tubing. The determination of the temperature distribution of fluid along the tubing will provide information w...
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id-itb.:306142018-05-15T14:30:28Z#TITLE_ALTERNATIVE# FARLYAN (NIM : 12212024), RIZKY Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/30614 In a continuous gas lift system, gas is injected down the annulus into the tubing through valve injection. Gas will mix with reservoir fluid and give an effect to fluid temperature along in tubing. The determination of the temperature distribution of fluid along the tubing will provide information which the injection valve is working. In this study will be an estimated location of the injection valve that works on wells X-1 and X-2 is based on the temperature of fluid flow is measured at the wellhead. <br /> <br /> Based on data which be published by Hasan & Kabir5, injection valve that works on X-1 wells are operating valve at a depth of 6093 ft. While the X-2 wells injection valve that works is unloading valve at a depth of 3489 ft. text |
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Indonesia Indonesia |
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Indonesia |
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In a continuous gas lift system, gas is injected down the annulus into the tubing through valve injection. Gas will mix with reservoir fluid and give an effect to fluid temperature along in tubing. The determination of the temperature distribution of fluid along the tubing will provide information which the injection valve is working. In this study will be an estimated location of the injection valve that works on wells X-1 and X-2 is based on the temperature of fluid flow is measured at the wellhead. <br />
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Based on data which be published by Hasan & Kabir5, injection valve that works on X-1 wells are operating valve at a depth of 6093 ft. While the X-2 wells injection valve that works is unloading valve at a depth of 3489 ft. |
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Final Project |
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FARLYAN (NIM : 12212024), RIZKY |
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FARLYAN (NIM : 12212024), RIZKY #TITLE_ALTERNATIVE# |
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FARLYAN (NIM : 12212024), RIZKY |
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FARLYAN (NIM : 12212024), RIZKY |
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https://digilib.itb.ac.id/gdl/view/30614 |
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