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and also pollution to the environment that may occur. Careful planning is required to design an optimum system <br /> <br /> integratedly, by considering kick and blowout as the main problems. In addition to the equipments, <br /> <br /> environmental factors also take part i...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/29269 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | and also pollution to the environment that may occur. Careful planning is required to design an optimum system <br />
<br />
integratedly, by considering kick and blowout as the main problems. In addition to the equipments, <br />
<br />
environmental factors also take part in consideration of the design process. <br />
<br />
Nowadays, offshore oil & gas industry is focused into deepwater environment which has different character <br />
<br />
compared to the shallow sea. Temperature variations, narrower pore pressure & fracture gradient windows, <br />
<br />
hydrate formation, and the Shallow Water Flow & Shallow Gas potential, are become challenges in determining <br />
<br />
well control equipment design and appropriate methods. Another concern is the equipments that affect the <br />
<br />
design, which are the use of floating drilling rig with Dynamic Positioning (DP) system and Subsea Blow Out <br />
<br />
Preventer (BOP) on the sea floor. <br />
<br />
Referring to the above explanation, this study is focused on making a practical reference in designing the well <br />
<br />
control system, consisting of the most appropriate well control’s equipment and methods in deepwater <br />
<br />
environment. By comparing the results of the literature study to the field case studies, a further understanding to <br />
<br />
make modification for specific case in the field can be achieved. |
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