Patent application number | Description | Published |
20080289801 | Modular Thermal Management System for Spacecraft - A composite panel provides structural strength and rigidity for modular assembly of spacecraft while serving the dual purposes of structure and heat transfer for thermal management of an environment for equipment, such as a spacecraft. Instruments, gimbals, surveillance, imaging, detectors, and the like may be mounted in a spacecraft designed and constructed from standard panels to provide the structural and heat transfer requirements to support the onboard equipment. Extremely small temperature differentials required by the panels support a substantially isothermal perimeter for the structure, able to sink heat from any location on a panel, transport it to a rejection site, and reject it to the cold environment of space, thus easing the task of design and packaging of instrumentation and infrastructure of satellites and other spacecraft. Two-phase mass transport of fluids inside the panels aids high heat flux rates with minimal temperature differentials, even with reinforced, composite, polymeric materials for the structural elements of the panels. | 11-27-2008 |
20090250196 | RELIEVED-CHANNEL, BONDED HEAT EXCHANGER - A panel assembly for exchanging heat with an ambient environment maintains minimal temperature differential by virtue of operation as a heat pipe apparatus. Panels of a composite material having excellent structural strength and structural stiffness but comparatively modest thermal conductivity are machined as mirror images of one another. Two orthogonal arrays of parallel channels are machined in the faces of two panels, each intersection of channels forming and bounded by pedestals having a lower, broader base with a narrower upper portion extending from a shoulder of the base portion of the pedestals. The pedestals, in turn, form the bounds of the channels, each having a deeper and a narrower aspect extending along the bases of all the pedestals. Channels have a broader aspect extending along near the tops of the pedestals. | 10-08-2009 |
20100175983 | Mutual Remediation of Effluents of Petroleum Production - Petroleous production is associated with effluents well known to foul lines, nozzles, and containers while consuming substantial energy to assist in both production and remediation. A heat exchanger and manifold system maximizes flows, minimizes changes in flow cross-section, and maximizes heat transfer area, while recycling both water and heat between processes. Dirty regions and clean regions result from scrubbing horizontal exhaust stacks and evaporation of production water in concert to remediate one another, while recycling a significant portion of the energy consumed by each. The heat exchanger relies on a manifold having many layered conduits, each connected to a single layer level of one or more cylindrical conduits in the exchanger. The cylinders of the exchanger themselves are arranged in multiple layers, each layer of a heat exchanger element being connected to a single layer of the manifold. Any shape of cylinder may work, but a right circular cylinder having corrugated sheets spacing the layers may be simple to construct. | 07-15-2010 |
20100176064 | Back Pressure-Matched, Integrated, Environmental-Remediation Apparatus and Method - Production brines are used to scrub a horizontal stack receiving exhaust from an energy source, controlling, reducing, or both noxious chemicals. Mutual remediation of flows from petroleous production cool and scrub exhausts from flares burning waste hydrocarbons, heaters lowering viscosity of crude oil, engines driving oil pumps or natural gas compressors, and the like. Resulting evaporation of production brines results in distilled water, more concentrated brines to reduce hauling, or, optionally, dehydrated dry waste minerals from the brines. Year-round operation of brine evaporation ponds is facilitated, and may be another source of process pre-heating. | 07-15-2010 |
20100252238 | TWO-PHASE-FLOW, PANEL-COOLED, BATTERY APPARATUS AND METHOD - Two-phase, boiling heat transfer in confined channels close to a source of heat, such as an electrical component or device, carries the latent heat of vapors away to remote locations where “real estate” demands of air convection are tolerable operationally, economically, and technologically. Liquid-to-vapor, phase-change, heat transfer in a narrow channel (e.g., typically less than 0.200 inches total thickness, and often less than 0.150 in the channel itself) improves by several hundred percent the heat extraction from modest temperature (e.g., about 120 degree F.) devices, when compared to heat fluxes in pool boiling. Saturated working fluids provide nearly isothermal conditions in the working fluid. Minimal conduction paths provide minimal temperature gradients, and capillary action may maintain nearly constant temperature conditions about a surface of a heat source, while carrying heat of vaporization away to a condensation location. | 10-07-2010 |
20120205231 | CONTROLLED-GRADIENT, ACCELERATED-VAPOR-RECOMPRESSION APPARATUS AND METHOD - An accelerated vapor recompression apparatus | 08-16-2012 |
20120205232 | CONTROLLED-GRADIENT, ACCELERATED-VAPOR-RECOMPRESSION APPARATUS AND METHOD - An accelerated vapor recompression apparatus | 08-16-2012 |
20120205235 | CONTROLLED-GRADIENT, ACCELERATED-VAPOR-RECOMPRESSION APPARATUS AND METHOD - An accelerated vapor recompression apparatus | 08-16-2012 |
20130125643 | Thermal Pulse Flow Meter - An apparatus and method are disclosed for using a thermally active device as a flow meter. The flow meter may have an extremely low mass, rapid response time, and use minimal energy. The flow meter may be located near a flow-side surface of a conduit wall, flush with the surface of a wall, or within a boundary layer of a flow in a conduit. In these locations, the device may present virtually no obstruction to the flow. In certain embodiments, the device may use a resistance temperature device (RTD) heated by a known current, and then tested for resistance at a comparatively much lower (nominally zero) value. A flow rate may be calculated as a function of temperature measurements taken at different steady-state conditions. Flow rates may be so measured at any desired frequency, including very infrequently, such as seconds, minutes, or days apart. | 05-23-2013 |
20140142005 | POTASH PROCESSING WITH A VAPOR-COMPRESSION CYCLE - A potash-extraction system and method for extracting potash from a brine containing potash without the use of water-consuming evaporation ponds or additional chemicals is disclosed. The potash processing system uses a vapor-compression cycle (e.g., heat pump or refrigeration system) to separate potash from brine containing potash and NaCl. In embodiments, heat emitted by components of the vapor-compression cycle (e.g., condenser heat exchanger, evaporator heat exchanger) may heat the brine to precipitate some NaCl from the brine. The remaining potash-concentrated brine may then be cooled to precipitate potash from the solution. The precipitated potash may then be further processed for final use. | 05-22-2014 |
20150014149 | CONTROLLED-GRADIENT, ACCELERATED VAPOR-RECOMPRESSION APPARATUS AND METHOD - An accelerated vapor recompression apparatus | 01-15-2015 |
20150044113 | Potash Processing with Mechanical Vapor Recompression - A potash-extraction system and method for extracting potash from a brine containing potash without the use of water-consuming evaporation ponds or additional chemicals is disclosed. The potash processing system uses a mechanical-vapor recompression (“MVR”) cycle to separate salt and then potash from a sylvinite brine containing salt and potash. In embodiments, the latent heat recovered from condensing vapor may be used to boil the brine to precipitate some salt and remove some water (in the form of water vapor) from the brine. The remaining potash-concentrated brine may then be cooled to precipitate potash from the solution. The precipitated potash may then be further processed for final use. | 02-12-2015 |
Patent application number | Description | Published |
20100132923 | Minimal-Temperature-Differential, Omni-Directional-Reflux, Heat Exchanger - A substrate formed of a suitable conductive-heat-transfer material is formed with small channels of a size selected to provide surface tension forces dominating a motion of a liquid-phase working fluid. A space above the channels of the substrate provides comparatively unobstructed space for the transport motion of a vapor phase of the working fluid effecting a heat-pipe effect in a multi-dimensional device. Channels may typically be formed in an orthogonal grid providing capillary return of liquids from a comparatively cooler condensation region to a comparatively warmer evaporation region, without any wicks other that the adhesion of the liquid phase working fluid to the vertices of the channels. Interference between the boundary layers of the liquid phase and the vapor phase of the working fluid are minimized by the depth of the channels, and the pedestals formed by the channel walls. Extremely small temperature differentials are thereby achieved between an outer surface of the substrate and an inner surface of the substrate when the liquid phase floods the substrate. | 06-03-2010 |
20100257781 | SOLAR-AUGMENTED, NOX- AND CO2-RECYCLING, POWER PLANT - Stack gases of a burner, such as a power plant or other combustion source, may be remediated by a captive algae farm cycling some portion of the stack gases through a scrubber, and ultimately out into a manifold feeding a farm composed of tubes hosting the growth of algae. Liquids from the scrubber, including water capturing volatile organic compounds, solid particulates, nitrogen compounds, sulfur compounds, carbon dioxide, and the like, remediate the water and feed the algae farm. Meanwhile, the vapors and other gases provide an environment rich in water vapor, nitrogen compounds acting as fertilizer, and carbon dioxide to feed the algae to promote increased rates of growth. The algae may be recycled as a fuel itself, or may be harvested for use as a soil amendment to enrich the organic content of soils. | 10-14-2010 |
Patent application number | Description | Published |
20120006448 | FLUTED WOODTURNING TOOLS WITH HANDLES - A woodturning tool according to embodiments of the present invention includes a shaft with a shaft tip, wherein the shaft tip is made of a first metal, and a cutting edge insert, at least a portion of an outer surface of the cutting edge insert rigidly joined to an inner surface of the shaft tip, the cutting edge insert formed of a second metal, the cutting edge insert being fluted and sharpened to form a cutting edge for woodturning, wherein the second metal is different from the first metal, and wherein the second metal is more wear-resistant than the first metal. | 01-12-2012 |
20120267008 | Lathe Parting Tool - This parting tool is compromised of a cutting blade with indexed depth markings allowing the depth of the cut to measured from the blade and a cutting blade housing that secures the blade such that the blade can extend, retract, and be easily removed from the housing. The housing and the blade have a coplanar bottom surface providing for reduced vibration and uninhibited movement of the tool across a tool rest. The blade and housing are secured in a vibration dampening bolster that can be removably attached to handles of various dimensions. | 10-25-2012 |
20120270479 | Adjustable Grinding Platform and Mounting Assembly - A grinding platform with an axis of rotation that is on the plane of the abrasive when used with belt grinders and on the plane that is vertical and tangent to the curvature of the abrasive when used with wheel grinders; such grinder having an angle gauge and possibly a vernier scale that allow for accurate determination of the angle of the tool rest in relation to the grinding surface. The grinding platform can also be continuously adjusted horizontally to compensate for wheel wear. | 10-25-2012 |
20140216605 | NEGATIVE RAKE SCRAPER - A negative rake scraper with a cutting blade and a cutting blade housing assembly that securely houses the cutting blade such that the blade can extend, retract, and be easily removed from the housing. The housing and the blade may have coplanar bottom and/or top surfaces providing reduced vibration and uninhibited movement of the tool across a tool rest. The cutting blade and housing may be removably attached to a vibration-dampening bolster that can be removably attached to handles of various dimensions. | 08-07-2014 |