Offshore Oil Recovery: Factors and Decision-making

1. PART SIX Systems Model and Offshore Oil

2. Offshore Oil: Decision to Recover • The determination must be made whether cost of inputs and processing will be offset by the value of the out-put oil.

3. Physical Factors Affecting Recovery • Ocean related factors include; • Ocean Depth , Ocean currents, Icebergs & pack ice • Climate/weather related factors include; • Wind speeds, Storms, Monsoons, Hurricanes • Oil Related factors include;  • Size of the reserve, Oil quality • Environmental protection factors;  • Other resources like fish stocks, marine mammals, and spawning grounds would be affected in the event of an oil spill.

4. Human Factors Affecting Recovery • Worker Safety • How safe can the drill rig and production platform be for the workers? • Financial Factors include: • cost of inputs - building a rig to withstand icebergs, hurricane winds, or to drill at great depths. • cost of processes - transporting the oil from off-shore to land, or maintaining equipment. • price of oil which is set and the you determine if enough money is recovered from the oil to exceed the cost of production.

5. Offshore Oil: Decision to Recover The main determinate is… … whether the cost of overcoming all other factors be offset by the price oil can be sold for and make the venture financially viable!

6. A Brief History of Oil Recovery Keeping the Connection to Land ~ In the 1860’s wharves were built extending 365m out into the ocean to facilitate ocean drilling off California.

7. A Brief History of Oil Recovery Letting go of Shore ~ In the 1920’s a drill rig was built on wooden pilings in lake Maracaibo, Venezuela.

8. A Brief History of Oil Recovery Moving to Steel ~ In the 1930’s a drill rig was built on steel structures in the Gulf of Mexico but it was limited to 7m of water or less.

9. A Brief History of Oil Recovery • Letting go of the Ocean Floor ~ In 1956 the first drill ship was built allowing drilling in deeper water. These types of drill ships allowed exploration off the shores of Newfoundland.

10. Drill Ships

11. Off-shore Oil Rigs Modern Drill Rigs • Submersible Rigs • Jack-up Rigs • Semi-submersible Anchored rigs • Semi-submersible Dynamically Positioned Pg. 186 - Figure 11.4

12. Submersible Rigs • Fixed columns ground them on the ocean floor. • Usually limited to ocean depths of 20 m. For this reason they are limited to continental shelves, relatively close to shore. • The rigs are floated as they are towed to drill site. Once in position ballast tanks are flooded until columns rest on ocean floor.

13. Submersible Rigs

14. Jack-Up Rigs • Extendable legs ground them on the ocean floor. • Are limited to a maximum ocean depth of 100 m. • The jack-up is similar to the submersible in that it rests on the ocean floor. However its steel legs (Not columns) rest on ocean floor.

15. Jack-Up Rigs

16. Semi-Submersible Anchored Rigs • Llimited to a max. ocean depth of 200 m. • Built on land, then flooded and towed to the drill site. Water is pumped in and out of Ballast tanks to keep stability along with anchor lines. • Oil is stored in pontoons until shipped on-shore. • Float BUT are anchored above the drill site.

17. Semi-Submersible Anchored Rigs

18. Semi-submersible Dynamically Positioned Use thrusters to keep position above the drill site. • Able to drill outside the continental shelf. Still limited to a max. ocean depth of 2000 m. • Like other rigs they are towed to the drill site. Water is pumped in and out of Ballast tanks to help stability (NO anchor lines). • Like the Anchored rigs oil is stored in pontoons until shipped on-shore. • Note: dynamic means changing or moving.

19. Semi-submersible Dynamically Positioned

21. Hibernia Case Study • Pg. 187-191