Patent application number | Description | Published |
20110120561 | COMBINED WATER STORAGE AND DETENTION SYSTEM AND METHOD OF PRECIPITATION HARVESTING AND MANAGEMENT - A combined water storage and detention (CWSD) system for maximizing storm water control and availability for use. The CWSD system includes a plurality of water conduits, remotely controllable water pumps, water storage drain valves, auxiliary bypass discharge valves, and, in pertinent part, a storage/detention system for storing/retaining a first volume of storm and sewer drain water, a sensing device for estimating a second volume of storm and sewer drain water within the storage/detention system, the second volume being less than or equal to the first volume, a precipitation forecast device for forecasting an expected time-dependent volume of water being added to or to be added to the system, and a controller that is structured and arranged to control the operating states of the plurality of controllable water pumps, water storage draining valves, and auxiliary bypass discharge valves. Preferably, the precipitation forecast device provides weather precipitation parameter data from a network source such as the World Wide Web, the Internet, a local area network (LAN), and a wide area network (WAN) and the sensing device is adapted to determine at least one of whether the second volume is below a pre-established minimum storage volume and whether the second volume is above a pre-established maximum storage volume. | 05-26-2011 |
20140350737 | OPTIMIZED HYDROMODIFICATION MANAGEMENT WITH ACTIVE STORMWATER CONTROLS - A system, methodology, and programming logic for active stormwater controls to optimize sizing and design of Hydromodification Management (HM) structural Best Management Practices (BMPs) to achieve optimal flow duration control. Control logic enables the controlled release of stormwater from a BMP in a manner most akin to pre-development flow duration curves. Inputs to this logic include: flow duration curves based on continuous hydrologic simulation for pre- and post-development conditions; real-time measurement of water level within the BMP; and real-time measurement of discharge entering the BMP. This control logic can interact with control logic for other stormwater management objectives, such as harvest and reuse, infiltration, and combined sewer overflow prevention, and respective inputs, such as real-time weather forecast data, precipitation gage data, downstream flow gauge data, and water quality data, to meet those design objectives as well. New HM BMPs can be optimized to be smaller and, thus, more feasible to implement. Existing stormwater facilities designed for flood control or other management objectives can be retrofitted to provide hydromodification control as well. When utilized with real-time flow and water level monitoring equipment and data, the flow release logic can be adaptively adjusted without physical retrofit of the BMP's outlet. | 11-27-2014 |
Patent application number | Description | Published |
20080210329 | Weighted Spoolable Pipe - A spoolable pipe is disclosed, the spoolable pipe having an internal pressure barrier formed about a longitudinal axis, a reinforcing layer(s) enclosing the internal pressure barrier, and a weight layer comprising fibers. The pipe can also include an energy conductor(s) integrated with and/or located between the internal pressure barrier and/or the reinforcing layer(s). | 09-04-2008 |
20090107558 | HEATED PIPE AND METHODS OF TRANSPORTING VISCOUS FLUID - The invention includes systems and methods for heating a fluid and transporting the fluid at an elevated temperature. The system includes a fiber reinforced spoolable pipe. This spoolable pipe may include an inner layer, at least one reinforcing layer, at least one heating element, and at least one insulation layer. The heating element may be located external to the inner layer. The invention also includes methods of deploying and rehabilitating a spoolable pipe for transporting a fluid at elevated temperature. | 04-30-2009 |
20090173406 | Fiber Reinforced Spoolable Pipe - A spoolable pipe is disclosed, the spoolable pipe having an internal pressure barrier formed about a longitudinal axis, and a reinforcing layer(s) enclosing the internal pressure barrier. In one embodiment, the reinforcing layer(s) can include fibers having at least a partial helical orientation about approximately thirty and about approximately seventy degrees relative to the longitudinal axis, and, the wall can include at least one external layer enclosing the reinforcing layer(s) and having a permeability at least ten times greater than the permeability of the internal pressure barrier. The reinforcing layer(s) can further include a coating. The pipe can also include an energy conductor(s) integrated with and/or located between the internal pressure barrier and/or the reinforcing layer(s). | 07-09-2009 |
20090217500 | Systems and Methods for Pipeline Rehabilitation - The present disclosure is directed to methods and systems for pipeline rehabilitation. The methods and systems disclosed herein permit the rehabilitation of long lengths of previously installed pipe and minimize the need for creating multiple access points to the pipeline. The disclosed systems and methods are particularly suited for rehabilitating buried and undersea pipelines or pipelines installed in areas of restricted access. | 09-03-2009 |
20100101676 | Composite Tubing - The present disclosure is directed to embodiments of composite tubing having properties tailored to meet a wide variety of environmental and working conditions. Composite tubes disclosed herein may include one or more of the following layers: a internal liner, a composite layer, a thermal insulation layer, a crush resistant layer, a permeation barrier, buoyancy control layer, a pressure barrier layer, and a wear resistant layer. Grooves may be provided in one or more layers of the composite tube to provide increased axial permeability to the composite tube. A venting system, including vent paths, may be provided in the composite tube to vent fluid that may become trapped within the wall of the composite tube. | 04-29-2010 |
20100212769 | COMPOSITE SPOOLABLE TUBE - A spoolable composite tube capable of being spooled onto a reel for storage and for use in oil field applications. The spoolable tube exhibits unique anistropic characteristics that provide improved burst and collapse pressures, increased tensile strength, compression strength, and load carrying capacity, while still remaining sufficiently bendable to be spooled onto a reel in an open bore configuration. The spoolable composite tube can include an inner liner, an interface layer, fiber composite layers, a pressure barrier layer, and an outer protective layer. The fiber composite layers can have a unique triaxial braid structure. | 08-26-2010 |
20100218944 | DOWNHOLE FLUID SEPARATION - The invention includes systems and methods for operating, monitoring and controlling downhole fluid control system at a below ground location in a wellhole. The system may include a downhole fluid control system comprising at least one pump, a spoolable composite pipe comprising a fluid channel and at least one energy conductor, and a distal connection device adapted to couple a distal end of the fluid channel to the at least one pump and couple a distal end of the at least one energy conductor to the downhole fluid control system. | 09-02-2010 |
20110209879 | System and Methods for Removing Fluids from a Subterranean Well - The invention includes systems and methods for removing fluids from a subterranean well. An example embodiment includes a system having a well casing surrounding at least one inner tubing string, where the inner tubing string has a distal section and a proximal section, a first fluid removal means within the distal section of the inner tubing string, and a second fluid removal means within the proximal section of the inner tubing string. | 09-01-2011 |
20120012333 | System and Methods for Removing Fluids from a Subterranean Well - The invention includes systems and methods for removing fluids from a subterranean well. An example embodiment includes a system having a well casing surrounding at least one inner tubing string, where the inner tubing string has a distal section and a proximal section, a first fluid removal means within the distal section of the inner tubing string, and a second fluid removal means within the proximal section of the inner tubing string. | 01-19-2012 |
20120118423 | Fiber Reinforced Spoolable Pipe - A spoolable pipe is disclosed, the spoolable pipe having an internal pressure barrier formed about a longitudinal axis, and a reinforcing layer(s) enclosing the internal pressure barrier. In one embodiment, the reinforcing layer(s) can include fibers having at least a partial helical orientation about approximately thirty and about approximately seventy degrees relative to the longitudinal axis, and, the wall can include at least one external layer enclosing the reinforcing layer(s) and having a permeability at least ten times greater than the permeability of the internal pressure barrier. The reinforcing layer(s) can further include a coating. The pipe can also include an energy conductor(s) integrated with and/or located between the internal pressure barrier and/or the reinforcing layer(s). | 05-17-2012 |
20120155813 | Composite Spoolable Tube - A spoolable composite tube capable of being spooled onto a reel for storage and for use in oil field applications. The spoolable tube exhibits unique anistropic characteristics that provide improved burst and collapse pressures, increased tensile strength, compression strength, and load carrying capacity, while still remaining sufficiently bendable to be spooled onto a reel in an open bore configuration. The spoolable composite tube can include an inner liner, an interface layer, fiber composite layers, a pressure barrier layer, and an outer protective layer. The fiber composite layers can have a unique triaxial braid structure. | 06-21-2012 |
20120266996 | Reinforcing Matrix for Spoolable Pipe - A spoolable pipe is disclosed, the spoolable pipe having an internal pressure barrier formed about a longitudinal axis, and a reinforcing layer(s) enclosing the internal pressure barrier that includes a solid hydrocarbon matrix. The pipe can also include an energy conductor(s) integrated with and/or located between the internal pressure barrier and/or the reinforcing layer(s). | 10-25-2012 |
20130146171 | Multi-Tube Spoolable Assembly - A multi-tube spoolable assembly has at least two spoolable composite tubes. Each of the tubes has a substantially fluid impervious inner liner, a composite layer enclosing the liner and having high strength fibers, and an outer protective layer enclosing the composite layer the inner liner. The assembly also has a retaining element to mechanically couple the position of the at least two spoolable composite tubes. | 06-13-2013 |
20150107820 | SYSTEM AND METHODS FOR REMOVING FLUIDS FROM A SUBTERRANEAN WELL - The invention includes systems and methods for removing fluids from a subterranean well. An example embodiment includes a system having a well casing surrounding at least one inner tubing string, where the inner tubing string has a distal section and a proximal section, a first fluid removal means within the distal section of the inner tubing string, and a second fluid removal means within the proximal section of the inner tubing string. | 04-23-2015 |