A system for on-stream sampling of pressurized process gas such as natural gas or the like, said system optimized for use with pressurized process gas having liquid entrained therein, or otherwise referenced as “wet”. In the preferred embodiment, the probe tip is situated laterally from one side of the inner pipe wall to the other so as to span the entire inner diameter (ID) of the pipe, the probe tip having formed along its outer surface sample collection slot along the length of said outer surface, providing a “linear sample” of the fluid flow of the entire breadth of the flow, providing an accurate sample of even disassociated flow with entrained liquid particles and flow. Embodiments for continuous sampling, batch mode, spot sampling are provided, as well as an anti-vibration feature.
A system for on-stream sampling of pressurized process gas such as natural gas or the like, said system optimized for use with pressurized process gas having liquid entrained therein, or otherwise referenced as “wet”. In the preferred embodiment, a probe and method of sampling is contemplated to provide linear sample of fluids from a predetermined of said fluid stream. Further taught is the method of preventing compositional disassociation of a gas sample having entrained liquid utilizing a probe having a passage formed to facilitate capillary action in fluid(s) passing therethrough. The present system further contemplates a system for providing power and/or heat to modular conditioning components as well provide sample flow therefrom utilizing a tube bundle via a tube bundle boot mounted on the bracket of a modular sample system. Further provided is a system for providing to a conditioning component an easily reconfigurable pressure reducing module, as well as a system for heating a modular conditioning component utilizing a heat trace.
A system for on-stream sampling of pressurized process gas such as natural gas or the like, said system optimized for use with pressurized process gas having liquid entrained therein, or otherwise referenced as “wet”. In the preferred embodiment, a probe and method of sampling is contemplated to provide a linear sample of fluids from a predetermined area of said fluid stream. Further taught is the method of preventing compositional disassociation of a gas sample having entrained liquid utilizing a probe having a passage formed to facilitate capillary action in fluid(s) passing therethrough. The present system further contemplates a unique modular vaporizing pressure regulator formed to electrically engage a tube bundle via a tube bundle boot mounted on the bracket of a modular sample system in order to dispense with the need for conduit normally required for a separate power cord.
A modular sample conditioning system formed for in-situ sampling installation, referenced herein as “source mounted”. The present invention relates to a docking platform or substrate configured to receive multiple, diverse sampling components in various flow configurations, coupled with a unique housing/enclosure formed to engage the docking platform so as to further strengthen and stabilize the mount, the enclosure (in rigid and non-rigid, flexible forms) also formed to engage one or more of the mounted sampling components, so as to provide access outside of the enclosure for visibility and/or manual access of same, providing an easily installed and maintained, user-accessible, on-site modular sampling conditioning/monitoring system.
G01N 1/44 - Sample treatment involving radiation, e.g. heat
G01N 35/08 - Automatic analysis not limited to methods or materials provided for in any single one of groups Handling materials therefor using a stream of discrete samples flowing along a tube system, e.g. flow injection analysis
G01N 1/10 - Devices for withdrawing samples in the liquid or fluent state
G01N 35/00 - Automatic analysis not limited to methods or materials provided for in any single one of groups Handling materials therefor
5.
Modular sample system incorporating mounting bracket independent of housing, and method therefore
A modular sample conditioning system formed for in-situ sampling installation, referenced herein as “source mounted”. The present invention relates to a docking platform or substrate configured to receive multiple, diverse sampling components in various flow configurations, coupled with a unique housing/enclosure formed to engage the docking platform so as to further strengthen and stabilize the mount, the enclosure (in rigid and non-rigid, flexible forms) also formed to engage one or more of the mounted sampling components, so as to provide access outside of the enclosure for visibility and/or manual access of same, providing an easily installed and maintained, user-accessible, on-site modular sampling conditioning/monitoring system.
A system for on-stream sampling of pressurized process gas such as natural gas or the like, said system optimized for use with pressurized process gas having liquid entrained therein, or otherwise referenced as “wet”. In the preferred embodiment, a probe and method of sampling is contemplated to provide linear sample of fluids from a predetermined of said fluid stream. Further taught is the method of preventing compositional disassociation of a gas sample having entrained liquid utilizing a probe having a passage formed to facilitate capillary action in fluid(s) passing therethrough. The present invention teaches a unique and innovative tube bundle with a separate power cord integrated therein to power a heated vaporizer, pressure regulator or other modular conditioning or other electrical component, the tube bundle of the present invention thereby dispensing with the need for a separate power cord, while providing higher capacity than prior art systems.
A system for on-stream sampling of pressurized process gas such as natural gas or the like, said system optimized for use with pressurized process gas having liquid entrained therein, or otherwise referenced as “wet”. In the preferred embodiment, a probe and method of sampling is contemplated to provide linear sample of fluids from a predetermined of said fluid stream. Further taught is the method of preventing compositional disassociation of a gas sample having entrained liquid utilizing a probe having a passage formed to facilitate capillary action in fluid(s) passing therethrough. The present system further contemplates a heated pressure regulator or adapter formed to thermally engage a heat trace via conducting plates and heat pipes, in order to dispense with the need for an external power source for heating. Finally, the present system further contemplates a vaporizer system or adapter therefore utilizing heat trace heating via conductor plates in lieu of a conventional internal electric-powered heat source.
G01N 1/20 - Devices for withdrawing samples in the liquid or fluent state for flowing or falling materials
G01N 1/22 - Devices for withdrawing samples in the gaseous state
G01N 1/44 - Sample treatment involving radiation, e.g. heat
G01N 30/04 - Preparation or injection of sample to be analysed
F24H 1/10 - Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium
A cyclonic filter separator system, as well as alternatives, suitable for use as liquid block apparatus integrated into a sample probe that is inserted into the pressurized process to prevent entrained liquids from entering the probe and being extracted for sampling is provided. The present invention enhances sampling of pressurized process fluids for on-stream and spot sampling of pressurized process fluid such as natural gas or the like, particularly pressurized process gas having liquid entrained therein, or otherwise referenced as multiphase or “wet”.
B01D 45/16 - Separating dispersed particles from gases or vapours by gravity, inertia, or centrifugal forces by centrifugal forces generated by the winding course of the gas stream
G01N 1/20 - Devices for withdrawing samples in the liquid or fluent state for flowing or falling materials
B04C 3/06 - Construction of inlets or outlets to the vortex chamber
A liquid block apparatus integrated into a sample probe that is inserted into the pressurized process to prevent entrained liquids from entering the probe and being extracted for sampling. The present invention enhances sampling of pressurized process fluids for on-stream and spot sampling of pressurized process fluid such as natural gas or the like, particularly pressurized process gas having liquid entrained therein, or otherwise referenced as multiphase or “wet”.
B01D 50/00 - Combinations of methods or devices for separating particles from gases or vapours
G01N 30/32 - Control of physical parameters of the fluid carrier of pressure or speed
B01D 39/20 - Other self-supporting filtering material of inorganic material, e.g. asbestos paper or metallic filtering material of non-woven wires
B01D 53/02 - Separation of gases or vapoursRecovering vapours of volatile solvents from gasesChemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases or aerosols by adsorption, e.g. preparative gas chromatography
A system for on-stream sampling of pressurized process fluid such as natural gas or the like, said pressurized process fluid in the form of gas having liquid entrained therein, or otherwise referenced as multiphase or “wet”. The preferred embodiment of the present invention contemplates a system for obtaining an accurate sample of said process gas in such a manner as to avoid the inherent problems with multi-phase gas streams, via sampling said multi-phase gas stream in its dense phase.
G01N 9/32 - Investigating density or specific gravity of materialsAnalysing materials by determining density or specific gravity by using flow properties of fluids, e.g. flow through tubes or apertures
A system for on-stream sampling of pressurized process gas such as natural gas or the like, said system optimized for use with pressurized process gas having liquid entrained therein, or otherwise referenced as “wet”. In the preferred embodiment, the probe tip is situated laterally from one side of the inner pipe wall to the other so as to span the entire inner diameter (ID) of the pipe, the probe tip having formed along its outer surface sample collection slot along the length of said outer surface, providing a “linear sample” of the fluid flow of the entire breadth of the flow, providing an accurate sample of even disassociated flow with entrained liquid particles and flow. Embodiments for continuous sampling, batch mode, spot sampling are provided, as well as an anti-vibration feature.
A cyclonic filter separator with liquid block capabilities formed to separate liquids in a fluid stream for on-stream and spot sampling of natural gas or the like, particularly pressurized process gas having liquid entrained therein, otherwise referenced as multiphase or “wet”. The present invention incorporates a liquid block apparatus downstream the cyclonic separator to provide to further prevent liquid passing therethrough, ensuring a dry gas sample stream for analysis or the like. A coalescing membrane may be situated intermediate the cyclonic separator and the liquid block, which coalescing membrane may further be linked to the liquid block such that differential pressure associated with the operative state of the membrane causes the liquid block to engage, blocking the flow of fluid therethrough.
B01D 45/00 - Separating dispersed particles from gases or vapours by gravity, inertia, or centrifugal forces
G01N 1/22 - Devices for withdrawing samples in the gaseous state
B01D 45/16 - Separating dispersed particles from gases or vapours by gravity, inertia, or centrifugal forces by centrifugal forces generated by the winding course of the gas stream
B01D 46/00 - Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
B01D 50/00 - Combinations of methods or devices for separating particles from gases or vapours
A modular sample conditioning system formed for in-situ sampling installation, referenced herein as “source mounted”. The present invention relates to a docking platform or substrate configured to receive multiple, diverse sampling components in various flow configurations, coupled with a unique housing/enclosure formed to engage the docking platform so as to further strengthen and stabilize the mount, the enclosure also formed to engage one or more of the mounted sampling components, so as to provide access outside of the enclosure for visibility and/or manual access of same, providing an easily installed and maintained, user-accessible, on-site modular sampling conditioning/monitoring system.
A system for on-stream sampling of pressurized process gas such as natural gas or the like, including pressurized process gas having liquid entrained therein, or otherwise referenced as “wet”. The preferred embodiment of the present invention contemplates a system for obtaining an accurate sample of process gas, as well as providing an apparatus for obtaining same.
A system for sampling and/or conditioning a process gas such as natural gas or the like utilizing two or more modular components, each having unique conditioning or monitoring features or the like, which components are formed to be slidingly received in a receiver so as to be stacked one upon the other for sealed engagement, forming a serial flow-through passage to provide conditioning, monitoring, or other features as the gas flows therethrough. An embodiment of the present invention is designed to receive multiple conditioning components, each of which may have diverse functionality such as, for example, one or more stages of pressure reduction, monitoring, particulate and/or liquid droplet filtering, etc. The invention is designed for easy configuration customization so as to provide a readily customizable solution for each application, with an embodiment which may be incorporated into a probe or the like or at its tip, and thereby operate at the prevailing pressure and temperature of the process gas.
A system for on-stream sampling of pressurized process gas such as natural gas or the like, said pressurized process gas having liquid entrained therein, or otherwise referenced as “wet”. The preferred embodiment of the present invention contemplates a system for obtaining an accurate sample of said wet process gas, as well as providing an apparatus for obtaining same.
A system for sampling and/or conditioning a process gas such as natural gas or the like with selective isolation capability. The preferred embodiment of the present invention is designed to be OSHA compliant, contemplating a system to insert, retract, maintain and service analytical sample conditioning components or the like in fluid communication with a pressurized pipeline, but upstream an isolation component such as, for example, a double block and bleed sample valve or the like. The preferred embodiment of the present invention thereby provides an apparatus and method for selective isolation of existing or potential hazardous energies which may be associated with the pressurized pipeline and fluids therein from upstream the modular sample component(s) or the like therein.
A system for insertion of a probe into a pressurized fluid stream by means of a threaded body formed to engage an elastomeric seal employed to form a fluid barrier thereabout. The present invention contemplates a system which effectively lessens resonance vibration effects and associated damage resulting there from in fluid sampling probes operating in high velocity fluid streams and the like, utilizing mechanical dampening properties associated with its seal(s) and insert(s), forming non-rigid attachment to support the length of the probe in a manner which facilitates resonance absorption and dampening, so as to lessen associated vibration/oscillation in the system. The threaded body forms, in effect, helical strakes to facilitate aerodynamic stabilization and reduce oscillations/vibration, as well as reduce force and deflection caused by high velocity fluid flow passing thereby.
An optical liquid sensor utilizing a light source, fiber optic cables, a light detector and an irregular transparent surface is provided to detect the presence of liquid in mist and continuous form. The sensor may be integrated into a probe designed for insertion into a pressurized fluid process.
G01N 15/06 - Investigating concentration of particle suspensions
G01N 21/3577 - Investigating relative effect of material at wavelengths characteristic of specific elements or molecules, e.g. atomic absorption spectrometry using infrared light for analysing liquids, e.g. polluted water
A multi-stage pressure regulator system. The system of the present invention provides for distribution of the Joules-Thomson (J-T) cooling effect between multiple stages. In the preferred embodiment of the present invention, the pressure is first reduced by a set ratio in one or more stages followed by an adjustable pressure output stage. The present invention thereby provides a system to control pressure reduction and thus prevent condensation (and associated distortion of a vapor composition sample) of a gas due to J-T cooling effect. The system of the present invention is particularly suitable for use placement (via, for example, a probe) within the source gas supply containment vessel, pipeline or the like, so that pressure reduction occurs at or near isothermal conditions, further lessening the likelihood of J-T condensation.
A system for retrieving a fluid sample from a fluid source. The preferred embodiment of the present invention contemplates a system for insertion of a probe into a pressurized fluid stream by means of male threads which are threadly engaged in a female threaded housing. An elastomeric seal is employed to form a fluid barrier around a segment of the probe's outer surface.
A system for on-stream sampling of pressurized process gas such as natural gas or the like, said pressurized process gas having liquid entrained therein, or otherwise referenced as “wet”. The preferred embodiment of the present invention contemplates a system for obtaining an accurate sample of said wet process gas, as well as providing an apparatus for obtaining same.
An on-stream sample collection and conditioning system, which is easier to construct, implement, maintain, and is more cost efficient then existing systems. The preferred embodiment of the present invention contemplates a modular system adaptable to a variety of diverse sample conditioning requirements. The system provides a docking surface specifically designed to receive modular conditioning or sampling components or the like in order to readily engage a system of passages to provide fluid flow between the mounted components. An embodiment of the invention provides a flow component having grooves formed therethrough reflecting the desired flow configuration, which is isolated from the flow component and sealed and to provide flow passages. The docking surface has access apertures formed to engage the flow passages, providing access to modular components mounted thereon.
A multi-stage pressure regulator in which pressure is first reduced by a set ratio in one or more stages followed by an adjustable pressure output stage. The system of the present invention provides for distribution of the Joules-Thomson (JT) cooling effect between multiple stages. The present invention thereby provides a system to control pressure reduction and thus prevent condensation (and associated distortion of a vapor composition sample) of a gas due to J-T cooling effect.
An on-stream sample collection and conditioning system, which is easier to construct, implement, maintain, and is more cost efficient then existing systems. The preferred embodiment of the present invention contemplates a modular system adaptable to a variety of diverse sample conditioning requirements. The system provides a docking surface specifically designed to receive modular conditioning or sampling components or the like in order to readily engage a system of passages to provide fluid flow between the mounted components.
An assembly for insertion and retraction of probe or probe-like device which does not require a seal or packing gland, instead utilizing pressure equalization between pressurized process fluids and the housing containing a probe, so as to negate the use of a dynamic seal. The preferred embodiment of the present invention contemplates an inserting/retraction mechanism for raising and lowering the probe into and from the pressurized fluid, respectively. A housing having a valve is configured to allow fluid communication between the pressurized fluid source, and the interior of the housing assembly. A conduit engages the housing assembly, and is formed to slidingly receive the outer diameter of the probe therethrough, such that a sliding seal maintains a fluid seal between the outer wall of the probe and the inner wall of the conduit, as the probe is telescoped therethrough during insertion and retraction of the probe into/from the pressurized process.
An on-stream sample collection and conditioning system, which is easier to construct, implement, maintain, and is more cost efficient then existing systems. The preferred embodiment of the present invention contemplates a modular system adaptable to a variety of diverse sample conditioning requirements. The system having incorporated a seamless piece having a surface for docking multiple sample conditioning components and having a system of internal passages to provide fluid flow between sample conditioning components. The preferred embodiment of the present invention also contemplates a modular system containing essentially the entire sample conditioning components required for one or more fluid streams.
An assembly for insertion and retraction of probe or probe-like device which does not require a seal or packing gland, instead utilizing pressure equalization between pressurized process fluids and the housing containing a probe, so as to negate the use of a dynamic seal. The preferred embodiment of the present invention contemplates an inserting/retraction mechanism for raising and lowering the probe into and from the pressurized fluid, respectively. A housing having a valve is configured to allow fluid communication between the pressurized fluid source, and the interior of the housing assembly. A conduit engages the housing assembly, and is formed to slidingly receive the outer diameter of the probe therethrough, such that a sliding seal maintains a fluid seal between the outer wall of the probe and the inner wall of the conduit, as the probe is telescoped therethrough during insertion and retraction of the probe into/from the pressurized process. Fluid flow will occur until the pressure of the housing assembly and the fluid source are equal to each other. The probe is then lowered through an opening in the first end of the housing assembly without having to overcome the force exerted by the differential pressure across a dynamic seal. An example of the insertion/retraction mechanism of the present invention utilizes a rack and pinion system.
A method and apparatus for the physical separation of components from a multi-phase fluid stream into its component phases. More particularly, the invention relates to a housing for a phase separation medium which allows one to change the phase separation medium without the necessity of disconnecting the flow lines. An alternative embodiment of the present invention contemplates a housing incorporating a unique internal valve configuration for controlling and limiting the fluid pressure differential across the sheet of phase-separating material. The internal valve begins to throttle or reduce the fluid flow rate through the sheet of phase-separating material after the differential pressure across the sheet of phase-separating material exceeds a preset value. If throttling the fluid flow rate cannot prevent the differential pressure from exceeding the preset limit, then the internal valve will shut off the fluid flow completely.
F16K 25/02 - Arrangements using fluid issuing from valve members or seats
B01D 61/00 - Processes of separation using semi-permeable membranes, e.g. dialysis, osmosis or ultrafiltrationApparatus, accessories or auxiliary operations specially adapted therefor
G01N 1/18 - Devices for withdrawing samples in the liquid or fluent state with provision for splitting samples into portions
G01N 1/20 - Devices for withdrawing samples in the liquid or fluent state for flowing or falling materials
09 - Scientific and electric apparatus and instruments
Goods & Services
Analyzer sample conditioning components, namely, membrane separators and filters, probes and probe regulators, [ and ] [sample cylinders] for use in the separation of liquids from gas samples
