Direct Electrical Heating of Pipelines As a Method of Preventing Hydrate And Wax Plugs Available to Purchase

Norwegian oil companies, research institutes, cable manufacturers and pipeline installation companies are presently conducting studies and a full scale test on electrical heating of multiphase subsea pipelines to prevent hydrate formation (Plugs) during planned shut-downs or reduced flow rate. Traditional methods of clearing pipelines of wax and hydrate deposits are by use of chemical inhibitors. This method is expensive and represents a risk to the environment should leakage occur. Electrical heating is therefore attractive. The Direct Electrical Heating System consists of a feeder cable installed piggy back to the pipeline subject to be heated. This feeder cable is connected to one end of the pipeline and a return cable is connected to the other end. The feeder and return cables are connected to the topside dedicated power supply equipment through a cable riser section. All cables are based on field proven underwater and offshore cable technology. The water depth limitation with current cable and connector technology" is approximately 500 m. Further development can make it feasible to install such a system down to 2000 m water depth. The system can be installed on new subsea developments and it can be retrofitted to existing pipelines. The evaluation of technical feasibility and cost estimates have been completed for a 50 Hz direct resistive heating system. The electrical rating of the system depends on the heat requirement, pipe material and the pipe length. The feasibility of the concept has been verified through full scale subsea tests. Results from the measurements are used to determine the characteristics parameters of the system on fields in the North Sea. The study includes both carbon steel, duplex steel and martensitic steel (13%Cr.). The heat requirement mainly depends on the thermal conductivity of the pipe insulation and seabed soil / gravel, and in the case of melting plugs, the heat capacity of the pipe, thermal insulation and the hydrate must also be taken into consideration.