| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | MOBILE WATER HEATING APPARATUS | US14303529 | 2014-06-12 | US20140345544A1 | 2014-11-27 | James Alan Cooper; Jeffery K. Cooper; Gerald Wayne Lind; Justin Lydell Mason; Noland Harper Critchfield |
| A system for heating water used to produce hydraulic fracturing fluid (“fracing fluid”). The system includes a mobile water heating system, and first and second pumps. The heating system is configured to heat water at a first flow rate from a first temperature to a second temperature. The first pump pumps water having the first temperature from a water source to the heating system at the first flow rate. The second pump pumps the heated water from the heating system at a second flow rate. Both the first and second flow rates are at least 20 barrels per minute. The second pump pumps the heated water to a location (e.g., one or more tanks) whereat a proppant and/or a chemical may be added to the heated water to produce fracing fluid. The fracing fluid may be pumped to one or more wells and used to hydraulically fracture an underground formation. | ||||||
| 182 | HYDRONIC SURFACE HEATING SYSTEM | US13759845 | 2013-02-05 | US20140216437A1 | 2014-08-07 | Jeff M. Martian; Travis G. Welle |
| A mobile surface heater is disclosed having a heat generation loop and a heat dissipation loop. The heat generation loop can include a heat generating device, a storage tank, and a first pump for circulating a fluid. The heat dissipation loop can be placed in fluid communication with the heat generation loop and includes a ground heating system having at least one heat transfer conduit extending between a supply manifold and a return manifold. A control valve can also be provided to deliver a mixed fluid flow stream to the ground heating system by selectively mixing fluid from the heat generation loop with fluid returning from the ground heating system return manifold. In one embodiment, an electronic controller is provided that operates the mixing valve to maintain a temperature setpoint of the mixed fluid flow stream and to maintain a minimum entering fluid temperature setpoint of the atmospheric water heater. | ||||||
| 183 | FRAC WATER HEATING SYSTEM AND METHOD FOR HYDRAULICALLY FRACTURING A WELL | US14169823 | 2014-01-31 | US20140144641A1 | 2014-05-29 | Ronald L. Chandler |
| The present invention overcomes many of the disadvantages of prior art mobile oil field heat exchange systems by providing an improved frac water heating system. The present invention is a self-contained unit which is easily transported to remote locations. In one embodiment, the present invention includes a single-pass tubular coil heat exchanger contained within a closed-bottom firebox having a forced-air combustion and cooling system. In another embodiment, the present invention includes multiple, single-pass heat exchanger units arranged in a vertically stacked configuration. The rig also includes integral fuel tanks, hydraulic and pneumatic systems for operating the rig at remote operations in all weather environments. In a preferred embodiment, the improved frac water heating system is used to heat water on-the-fly (i.e., directly from the supply source to the well head) to complete hydraulic fracturing operations. The present invention also includes systems for regulating and adjusting the fuel/air mixture within the firebox to maximize the combustion efficiency. The system includes a novel hood opening mechanism attached to the exhaust stack of the firebox. | ||||||
| 184 | FRAC WATER HEATING SYSTEM AND METHOD FOR HYDRAULICALLY FRACTURING A WELL | US14169690 | 2014-01-31 | US20140144393A1 | 2014-05-29 | Ronald L. Chandler |
| The present invention overcomes many of the disadvantages of prior art mobile oil field heat exchange systems by providing an improved frac water heating system. The present invention is a self-contained unit which is easily transported to remote locations. In one embodiment, the present invention includes a single-pass tubular coil heat exchanger contained within a closed-bottom firebox having a forced-air combustion and cooling system. In another embodiment, the present invention includes multiple, single-pass heat exchanger units arranged in a vertically stacked configuration. The rig also includes integral fuel tanks, hydraulic and pneumatic systems for operating the rig at remote operations in all weather environments. In a preferred embodiment, the improved frac water heating system is used to heat water on-the-fly (i.e., directly from the supply source to the well head) to complete hydraulic fracturing operations. The present invention also includes systems for regulating and adjusting the fuel/air mixture within the firebox to maximize the combustion efficiency. The system includes a novel hood opening mechanism attached to the exhaust stack of the firebox. | ||||||
| 185 | Distillation-type drinking fountain and energy-saving heating unit thereof | US12856833 | 2010-08-16 | US08394241B2 | 2013-03-12 | Long-Ming Wang |
| A distillation-type drinking fountain includes a liquid providing unit having a liquid entry; a heat-exchanging tube having a liquid-incoming end, a liquid-outgoing end and a heat-exchanging room; a hot water tank having a body and a heating unit. The body has a heating room communicating with the liquid-outgoing end. A steam pipe has a first end and a second end, with the first end communicating with the heating room. A condensing unit has a condenser tube having one end communicating with the second end. A water-collecting container has a water-storing room communicating with another end of the condenser tube. An energy-saving heating unit includes an energy-saving heat-exchanging tube and a heating device. The energy-saving heat-exchanging tube includes a water-incoming end, a water-outgoing end and an energy-saving heat-exchanging room. An outlet valve communicates with the water-outgoing end. | ||||||
| 186 | Low cost tankless portable water heater | US12478657 | 2009-06-04 | US08276548B2 | 2012-10-02 | Franco Consadori; Gerald Rennert; Ryan Chavez |
| A portable tankless water heater includes a heat exchanger disposed in a sealed housing with an inlet cold water line and an outlet hot water line extending outside the sealed housing. A burner, disposed in an operative relationship with said heat exchanger is provided for heating water flowing through said heat exchanger and an exhaust system induces draft of air from a housing air inlet through said heat exchanger and out of a housing flue outlet. | ||||||
| 187 | OUTDOOR SHOWER DEVICE | US13246970 | 2011-09-28 | US20120111971A1 | 2012-05-10 | Chia-Lin Chang |
| An outdoor shower device, comprising a water storage module, a power supply module, a heating module, a control module, a water supply module and an alarm module, wherein the water storage module is employed for water source storage, the control module controls the heating module to heat the water based on the water temperature, and then the water supply module provides the heated water for use. Furthermore, the power supply module provides electric power required for integral operations and enables the alarm module to determine the water level; in case the water level is exceedingly low, it is possible to present blinking display signal and audio alarm sound to inform the user of such a low water level thereby allowing the user to more effectively apply the outdoor shower device of the present invention. | ||||||
| 188 | SYSTEM FOR THAWING SNOW OR ICE ON ROAD | US12789174 | 2010-05-27 | US20110290776A1 | 2011-12-01 | Sang Man Yoon |
| Provided is a system for preventing snow from piling or freezing into slippery ice on a road in the winter season. The system comprises a case, an antifreeze fluid supply tank installed in an upper portion of the case, an electric heater installed in a lower portion of the case to heat an antifreeze fluid supplied from the antifreeze fluid supply tank, a circulation pump connected between the antifreeze fluid supply tank and the electric heater to supply the antifreeze fluid to the electric heater, an antifreeze fluid discharge pipe connected to one side of the electric heater to discharge the heated antifreeze fluid outside the electric heater therethrough, a synthetic resin hose buried under a road and connected to the antifreeze fluid discharge pipe at one end thereof, and an antifreeze fluid return pipe connected between the other end of the hose and a middle portion of the antifreeze fluid supply tank. Due to this construction, the antifreeze fluid heated by the electric heater is continuously circulated through the hose by the operation of a circulation pump to thaw snow or slippery ice piled on a road. | ||||||
| 189 | LOW COST TANKLESS PORTABLE WATER HEATER | US12478657 | 2009-06-04 | US20100031900A1 | 2010-02-11 | Franco Consadori; Gerald Rennert; Ryan Chavez |
| A portable tankless water heater includes a heat exchanger disposed in a sealed housing with an inlet cold water line and an outlet hot water line extending outside the sealed housing. A burner, disposed in an operative relationship with said heat exchanger is provided for heating water flowing through said heat exchanger and an exhaust system induces draft of air from a housing air inlet through said heat exchanger and out of a housing flue outlet. | ||||||
| 190 | OIL-FIRED FRAC WATER HEATER | US12352505 | 2009-01-12 | US20100000508A1 | 2010-01-07 | Ronald L. Chandler |
| The present invention overcomes many of the disadvantages of prior art mobile oil field heat exchange systems by providing an oil-fired heat exchange system. The present invention is a self-contained unit which is easily transported to remote locations. The present invention includes a single-pass tubular coil heat exchanger contained within a closed-bottom firebox having a forced-air combustion and cooling system. The rig also includes integral fuel tanks, hydraulic and pneumatic systems for operating the rig at remote operations in ail weather environments. In a preferred embodiment, the oil-fired heat exchanger system is used to heat water on-the-fly (i.e., directly from the supply source to the well head) to complete hydraulic fracturing operations. The present invention also includes systems for regulating and adjusting the fuel/air mixture within the firebox to maximize the combustion efficiency. The system includes a novel hood opening mechanism attached to the exhaust stack of the firebox. | ||||||
| 191 | Portable water heater | US10802426 | 2004-03-17 | US07506386B1 | 2009-03-24 | Trevor Adrian |
| A portable hot water heater for larger-scale applications including emergency use, situations involving hazardous materials, and the like. The hot water heater advantageously efficiently and rapidly heats large quantities of water for providing a stream of hot water for immediate use. The hot water heater includes a pump that can draw water from any suitable water source, a power source, a heating assembly that quickly and efficiently heats the water as it flows through the heating assembly. The heating assembly is attached to a shower head or other fixture. | ||||||
| 192 | MODULAR WATER HEATING SYSTEMS | US11554927 | 2006-10-31 | US20080152331A1 | 2008-06-26 | William R. Ryks |
| Modular water heating systems include a self-standing rack on which one or two separate tankless water heaters and a separate water storage tank are mounted. A pump recirculates the water between the storage tank and the water heater or heaters to maintain a drawdown supply of hot water. The various water lines between the tankless water heater or heaters, storage tank and water circulation pump may include isolation valves, quick connectors and flexible lines for easy replacement of any of the component parts as needed. | ||||||
| 193 | Portable instant hot water heater | US10223203 | 2002-08-19 | US20040031449A1 | 2004-02-19 | Norris Richard Long; Gary Israel |
| A portable instant water heater. Water is delivered to a base unit of the instant hot water heater by a pump that draws water from a reservoir through a flow control valve. The water flows into a pre-heater that wraps around a base of the burner and that is heated by the burner. Water is heated in a heat exchanger and then exits the base unit through an outlet spout that swings out from the base unit to dispense water and that may be stored and locked into position in a handle for the base unit. The flow control valve may lower the flow of water through the heat exchanger, so the water has more time to absorb heat and to get hotter. The base unit includes a single control knob that turns on the pump and the burner and operates the flow control valve. | ||||||
| 194 | Utilities container | US10147457 | 2002-05-17 | US06688048B2 | 2004-02-10 | Udo I. Staschik |
| For houses and other buildings in remote locations, which are not serviced with mains (municipal) utilities, a module includes the electric generator, water supply, sewage disposal, etc facilities. The module and its utilities are constructed, assembled, and installed into a room-structure, in a factory, whereby the whole module can be tested prior to shipping. The physical and structural integration of the components and systems permits and enhances functional and operational integration of the systems. The module uses co-generation, heat exchangers, etc, for coordinating the hitherto-separate utility systems. | ||||||
| 195 | Portable warm water heater system | US09871141 | 2001-12-13 | US06628894B2 | 2003-09-30 | Ken S Winter; Roger S. Winter |
| A low-cost warm water heater for use in portable toilets, to provide unblended warm water for hand washing provides a small quantity of warm water at a predetermined temperature, the flow being sensibly at ambient pressure. The water system is supplied by hand or foot pump, or gravity feed, using a low power electric immersion heater, within a small, fabricated plastic casing that is of standard fittings, solvent welded to provide a substantially vandal-proof, child-proof heater. Provision of a cold water feed with vacuum break protects the heater against being siphoned dry. Snap-in hose connections simplify assembly and maintenance. While electrically protected by the plastic case construction, electrical ground-fault protection may also be utilized. A stand-alone embodiment incorporates a diaphragm foot pump to provide spurts of warm water. | ||||||
| 196 | Modular water heater | US09976256 | 2001-10-12 | US20030070430A1 | 2003-04-17 | Robert Beckius; Michael R. Powell; Seung-Ho Hong; Charles J. Call; Ezra Merrill |
| A portable modular water heater system having a heat exchanger and a fluid heating channel for heating water from a reservoir and for optionally producing purified potable water. Optionally, a thermoelectric module is included in the system for producing an electric current usable to rechargeable batteries, drive pumps, or other devices. When the heat exchanger module is exposed to a heat source, heat absorbed by the heat exchanger is transferred to the fluid heating channel, heating the water. The heated water is forced into an upper portion of the reservoir. A condenser module is optionally coupled to the reservoir to condense steam in the upper portion. The thermoelectric module produces an electrical current when exposed to a temperature differential between the reservoir's cool water and the heat exchanger. A portable microclimate heating system, such as a jacket with tubing, can be heated with the heater system. | ||||||
| 197 | Utilities container | US10147457 | 2002-05-17 | US20020189173A1 | 2002-12-19 | Udo Ingmar Staschik |
| For houses and other buildings in remote locations, which are not serviced with mains (municipal) utilities, a module includes the electric generator, water supply, sewage disposal, etc facilities. The module and its utilities are constructed, assembled, and installed into a room-structure, in a factory, whereby the whole module can be tested prior to shipping. The physical and structural integration of the components and systems permits and enhances functional and operational integration of the systems. The module uses co-generation, heat exchangers, etc, for coordinating the hitherto-separate utility systems. | ||||||
| 198 | Utilities container | US09301384 | 1999-04-23 | US06393775B1 | 2002-05-28 | Udo Ingmar Staschik |
| For houses and other buildings in remote locations, which are not serviced with mains (municipal) utilities, a module includes the electric generator, water supply, sewage disposal, etc facilities. The module and its utilities are constructed, assembled, and installed into a room-structure, in a factory, whereby the whole module can be tested prior to shipping. The physical and structural integration of the components and systems permits and enhances functional and operational integration of the systems. The module uses co-generation, heat exchangers, etc, for coordinating the hitherto-separate utility systems. | ||||||
| 199 | Portable system for heating water | US09437889 | 1999-11-09 | US06354511B1 | 2002-03-12 | Mitchell C. Hardee |
| The present invention provides an apparatus for heating water. In certain embodiments, the present invention relates to a portable apparatus for heating water that may also be self-contained such that connection to additional sources of fuel or electrical power are not required. Certain embodiments of the present invention may be used to provide heated water for showers, cleaning, food preparation, and the like. | ||||||
| 200 | Mobile pool heating apparatus | US588924 | 1996-01-19 | US5893341A | 1999-04-13 | Emery E. Cox |
| A mobile water heating apparatus for rapidly heating large volumes of water, such as swimming pools, hot tubs, etc., at multiple sites includes a water heater, a water pump, and a water circuit comprising flexible conduit for direct coupling between the pool of water to be heated and the mobile water heating apparatus. The mobile water heating apparatus is independent of on-site dedicated facilities, provides rapid remote site service for cold weather or emergency situations, and is fully self contained, including energy source for heat generation and power generation for operating the water heating system equipment. | ||||||
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