Subsea production systems are generally arranged as shown in Figure X-X. Some subsea production systems are used to extend existing platforms. For example, the geometry and depth of a reservoir may be such that a small section cannot be reached easily from the platform using conventional directional drilling techniques or horizontal wells. Based on the location of the tree installation, a subsea system can be categorized as a dry tree production system or a wet tree production system. Water depth can also impact subsea field development. For the shallower water depths, limitations on subsea development can result from the height of the subsea structures.
Christmas trees and other structures cannot be installed in water depths of less than 30 m (100 ft.). For subsea development in water depths less than 30 m (100 ft.), jacket platforms consisting of dry trees can be used.
This Database was designed to perform Cost Estimates, based on generic cost curves for several Activity families types generated using benchmarking techniques. The benchmarked curves give Purchased Equipment Cost as a function of a capacity variable or combination of variables. The cost curves and other information contained in this application can be used to develop the overall process plant capital cost.
AB1000-SUBSEA FACILITIES - COST DATABASE
- AB1101 - SURF - Class V Cost Estimation
- AB1102 - SURF - Class IV Cost Estimation
- AB1103 - SURF - Cost Benchmarking Tool For Non-Deepwater Worldwide Projects
- AB1104 - SURF - Cost Benchmarking Tool For Deepwater Worldwide Projects
- AB1105 - SURF - Cost Benchmarking Tool For Deepwater GOM Projects
- AB1106 - SURF - Cost Benchmarking Tool For Deepwater WAF Projects