Abstract: A prognostic and health accuracy maintenance system and method for a system following on-site replacement of a component in the system is provided. A system characterization model of at least portions of the system is generated and embedded within a controller in the system. The system characterization model is adapted to receive a plurality of signals that are each representative of an operational parameter within the system and is responsive to each of the signals to generate simulation response data and determine system health based, at least in part, on the simulation response data. When a component within the system is replaced, a determination is made as to whether the replacement component exhibits one or more operational performance characteristics that differ from the component it replaced. If so, the embedded system characterization model is updated in-situ.

Abstract: Disclosed is a pressurized internal oil management system, comprising an oil dam, at least one oil separator, at least one oil collection manifold, at least one oil pump, and one or more paths for returning the separated oil; said system integrated within the casing of a fluid displacement device to supply adequate lubrication regardless of orientations under zero to full gravity, and methods and applications related thereto. Fluid displacement devices useful herein include oil lubricated rotary or reciprocating machinery, such as compressors, expanders, pumps and engines, in the casing of which exists one or more drive mechanisms that can be utilized to operate the oil management system, in most cases without even increasing the size of the casing.

Abstract: An electrically actuated downhole system for controlling and monitoring the flow of gas from a gas lift petroleum well in which a borehole penetrates at least two spacially separated geological production zones, and at least two strings of parallel tubing extend along the interior of a well casing, each string being associated with a separate production zone. Connected to each string is a gas lift valve associated with the string's respective spacially separated production zone. A single source of pressurized gas is connected to the casing at the wellhead to provide a source of lift gas. A control unit located at the surface independently controls and monitors the size of the flow control aperture of each gas lift valve to control the production of fluids from each separate production zone. Control cables carry readings from downhole pressure and flow-rate sensors to the control unit, and in response, carry control signals back to each gas lift valve to control its aperture size.

Abstract: The flow performance of the geothermal wells represents the ability of the wells to produce useful heat. A liquid-dominated geothermal well can be made to flow by introducing a primary fluid at a selected level in the well. In the process disclosed herein, a primary fluid is introduced into the well casing through a plurality of valves at preselected elevations to accomplish the startup of the flow from the well, the continuous or intermittent, uninterrupted production of brine, and a regulated shutdown. In normal flowing operation, upon injection of the primary fluid through the valves into the well casing, the primary fluid vapor, together with geothermal steam will lift the brine from the depths of the well to the surface of the earth, where the geothermal heat stored in the brine and in the vapors that are co-produced with the brine can be further utilized.The process disclosed herein also minimizes the formation of scale in the well casing.

Abstract: A method of achieving gas induced production of liquid from wells wherein the wells have a production tubing string extending to a production formation wherein such wells may have insufficient gas production for achieving continuous production of liquids from such wells. The method includes establishing a liquid accumulation chamber being located downstream of a gas accumulation chamber and being in communication with the tubing string, while the gas accumulation chamber is in communication with the production formation. Liquid from the production formation is produced by maintaining a condition of predetermined low flow of gas and liquid produced from the production formation. The method includes accumulating a predetermined quantity of liquid within the liquid accumulation chamber during the predetermined low flow condition, while simultaneously accumulating a quantity of gas within the gas accumulation chamber.