| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | In particular a method and apparatus for generating steam for the cooking appliance | JP2002518036 | 2001-08-08 | JP2004505700A | 2004-02-26 | ヴィーデマン、ペーター; コールシュトルング、ペーター; シュライナー、トマス; マース、ブルーノ; ユンカー、エルマー |
| 本発明は、蒸気を発生する方法及びこの方法を利用する装置に関する。 特に、調理機器用の方法及び装置に関する。 加熱可能な少なくとも一つの壁面(12)が加熱されて、蒸気発生容器内で液体が沸騰される。 さらに加熱の際に沸騰した液体が回転され、その回転による遠心力によって加熱可能な壁面(12)に押し付けられると少なくとも一部の液体が蒸発し、蒸気が生じる。 この蒸気が蒸気発生容器の出口から排出されるとき、蒸気に追従した液体の滴が分離除去される。 この分離除去で、蒸気発生容器内に回転可能に支承された少なくとも1個の第1のロータ(8)によって液体は回転される。 | ||||||
| 2 | Method and apparatus for generating steam for a cooking device | US10344293 | 2001-08-08 | US06959668B2 | 2005-11-01 | Thomas Schreiner; Peter Kohlstrung; Bruno Maas; Peter Wiedemann; Elmar Junker |
| A method and steam generator includes a steam generator container having a heated wall surface, an inlet for a liquid and an outlet for removing the vaporized liquid or steam, a rotor, which is mounted for rotation in the container and causes a rotational flow of the liquid outwardly against the heated wall to cause vaporization. During rotation of the rotor, outer edges of the blades of the rotor contact the wall surface to either abrade or wipe deposits, such as lime, from the wall surface. | ||||||
| 3 | Rotary boilers | US3690302D | 1971-03-25 | US3690302A | 1972-09-12 | RENNOLDS PHILIP J |
| A rotary boiler comprising a boiler chamber defined by axially spaced side walls and radially spaced outer peripheral wall. The boiler is rotated about its axis at a speed to maintain an annular body of organic liquid distributed circumferentially about the inner surface of the peripheral boiler wall with a cylindrical liquid/vapor interface disposed at a predetermined radius from the rotation axis. Combustion means is provided outwardly adjacent the boiler peripheral wall to heat and vaporize the liquid at high boiling heat fluxes greater than obtainable at ambient gravity. The boiler peripheral wall is configurated, as by flutes or corrugations, in the circumferential direction to provide transversely thereof in the axial direction a total length of wall heat conduction surface to the liquid that is substantially greater than the linear axial spacing of the boiler side walls at the liquid/vapor interface. The greater heat conduction surface of the peripheral wall reduces the heat flux at the wall and the temperature difference between the wall and the liquid/vapor interface to an extent that a compact boiler can be operated at high overall thermal flux with minimal decomposition of the boiler fluid.
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| 4 | Centrifugal condensing apparatus | US3567589D | 1968-07-05 | US3567589A | 1971-03-02 | JAVET ALAIN |
| A DEVICE FOR ENABLING A LIQUID TO BE DISCHARGED FROM A ROTATING CHAMBER THROUGH AN END OPENING FORMED IN A CASING PORTION THEREOF AND FOR PREVENTING A GASEOUS FLUID FROM FLOWING THROUGH SAID OPENING IN EITHER DIRECTION, WHICH COMPRISES THE OUTER SEMITORIC HALF OF A TORIC CHANNEL WITH ONE OPENING OF THE CHANNEL DIRECTLY AND SEALINGLY CONNECTED TO SAID CASING END OPENING AND WITH THE CONVEX SURFACE OF THE CHANNEL IN A POSITION RADIALLY MORE REMOTE FROM THE ROTATIONAL AXIS OF THE CHAMBER THAN SAID OPENING, A DISC TRANSVERSE TO THE AXIS EXTENDS RADIALLY INTO THE CHAN-
NEL SO THAT, UPON LIQUID BEING DISCHARGED FROM SAID CASING END OPENING, SAID LIQUID FIRST FILLS SAID CHANNEL TO FORM A LIQUID PLUG BEFORE ISSUING AT THE OTHER END OF THE CHANNEL. IN A PREFERRED EMBODIMENT THE CASING END OPENING AND THE CHANNEL EXTEND, WIDTHWISE, CIRCUMFERENTIALLY AROUND THE ENTIRE CHAMBER. |
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| 5 | Rotary steam generator | US3054925 | 1925-05-15 | US1697551A | 1929-01-01 | VIKTOR BLOMQUIST JOHAN |
| 6 | Vapor generator | US3389225 | 1925-06-01 | US1610163A | 1926-12-07 | FREDERICK SAMUELSON |
| 7 | System and method for zero liquid discharge | US12907009 | 2010-10-18 | US08646415B2 | 2014-02-11 | Maoz Betzer Tsilevich |
| The present invention is a system and method for generating a mixture of steam and combustion gas in a direct contact rotating steam generator, using high solids content water, and without waste liquid discharge. The invention includes removing the solids with controllable water content in a stackable form. The system includes a longitudinally rotatable and controlled pressure enclosure being mounted at a slope and having a steam producing section, a water injection section and a discharge section. The enclosure can include a mixing and mobilizing rotating element to enhance the mixture and the heat transfer. The system can have an additional wet section to scrub contaminates and produce saturated steam. The system can be integrated with an enhanced oil recovery facility or with an open mine oil facility that generates non-segregate tailings to consume their discharge liquid waste and generate steam, heat and a stable solids waste. | ||||||
| 8 | SYSTEM AND METHOD FOR ZERO LIQUID DISCHARGE | US12907009 | 2010-10-18 | US20110036308A1 | 2011-02-17 | Maoz BETZER-ZILEVITCH |
| The present invention is a system and method for generating a mixture of steam and combustion gas in a direct contact rotating steam generator, using high solids content water, and without waste liquid discharge. The invention includes removing the solids with controllable water content in a stackable form. The system includes a longitudinally rotatable and controlled pressure enclosure being mounted at a slope and having a steam producing section, a water injection section and a discharge section. The enclosure can include a mixing and mobilizing rotating element to enhance the mixture and the heat transfer. The system can have an additional wet section to scrub contaminates and produce saturated steam. The system can be integrated with an enhanced oil recovery facility or with an open mine oil facility that generates non-segregate tailings to consume their discharge liquid waste and generate steam, heat and a stable solids waste. | ||||||
| 9 | Rotary boiler | US35131673 | 1973-04-16 | US3818871A | 1974-06-25 | O CONNOR C |
| A boiler in which a plurality of generally A-shaped tubes connect to, and are rotatably driven with, an annular hub and a steam discharge pipe in a generally circular chamber. Water and fuel for combustion are introduced through the hub. The tubes act like an impeller fan drawing air for combustion through the hub. The chamber is double-walled to define an air cooling jacket and air is drawn through the double wall before being directed to the hub.
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| 10 | Steam generator | US13610837 | 1937-04-10 | US2098841A | 1937-11-09 | VERLOOP HENDRIK N F |
| 11 | Rotating steam generator | US49007630 | 1930-10-20 | US1857710A | 1932-05-10 | VIKTOR BLOMQUIST JOHAN; ANDERS BLOMEN TORSTEN |
| 12 | Steam generator having rotary tubular elements | US3054825 | 1925-05-15 | US1649382A | 1927-11-15 | VIKTOR BLOMQUIST JOHAN; FREDRIK WESSBLAD KARL |
| 13 | Method and device for the generation of steam, in particular for cooking device | US10344293 | 2003-02-07 | US20030192436A1 | 2003-10-16 | Thomas Schreiner; Peter Kohlstrung; Bruno Maas; Peter Wiedemann; Elmar Junker |
| The invention relates to a method for the generation of steam, in particular for a cooking device, whereby a fluid within a steam generator container is brought to the boil, by the heating of at least one heatable wall surface (12) of the steam generator container. Said fluid is set in rotation by the heating and thus pressed against the heatable wall surface (12), due to centrifugal forces arising from the rotation. The steam generated as a result of the evaporation of at least a part of the fluid escapes from the steam generator container through a steam outlet and droplets of fluid entrained in the steam are separated out by at least one first rotor (8), rotatably mounted in the steam generator container, whereby the fluid is set in rotation by said rotor. The invention further relates to a device using the above method. | ||||||
| 14 | Heat and steam generator | US37687773 | 1973-07-05 | US3809017A | 1974-05-07 | ESKELI M |
| A method and apparatus for the vaporizing of liquids and for generation of steam, wherein a gaseous heating fluid is compressed with accompanying temperature increase, and this temperature increase is employed to provide for heat transfer to a working fluid which is in heat exchange relationship with said heating fluid during said compression. A rotating rotor with a heat exchanger mounted within is used to compress said heating fluid with said working fluid being within said heat exchanger conduits. Said gaseous heating fluid may also be condensed within said rotor with the heat of vaporization of said heating fluid being passed to said working fluid. Various fluids may be used for said heating fluid, such as halogenated hydrocarbons, ammonia, air, nitrogen or sulfur dioxide. For the working fluid, water, halogenated hydrocarbons, hydrocarbons or sulfur dioxide may be used. The fluids are so selected that said heating fluid has a higher temperature increase within said rotor than said working fluid so that heat transfer from said heating fluid to said working fluid may take place. By proper selection of the heating fluid, the work input of the unit rotor can be made to be nearly nil.
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| 15 | Boiler for generating high quality vapor | US3508402D | 1967-09-06 | US3508402A | 1970-04-28 | GRAY VERNON H; JOSLYN ALLAN W |
| 16 | Boiler | US41975941 | 1941-11-19 | US2331508A | 1943-10-12 | SCHAEFER HENRY G |
| 17 | Steam generator | US65683223 | 1923-08-11 | US1556143A | 1925-10-06 | VIKTOR BLOMQUIST JOHAN; FREDRIK WESSBLAD KARL |
| 18 | Feed-water heater for steam generators with a rotary water layer | US62139223 | 1923-02-26 | US1521502A | 1924-12-30 | VIKTOR BLOMQUIST JOHAN; FREDRIK WESSBLAD KARL |
| 19 | VERFAHREN UND VORRICHTUNG ZUM ERZEUGEN VON DAMPF, INSBESONDERE FÜR EIN GARGERÄT | EP01960158.2 | 2001-08-08 | EP1307690B1 | 2006-10-04 | SCHREINER, Thomas; KOHLSTRUNG, Peter; MAAS, Bruno; WIEDEMANN, Peter; JUNKER, Elmar |
| The invention relates to a method for the generation of steam, in particular for a cooking device, whereby a fluid within a steam generator container is brought to the boil, by the heating of at least one heatable wall surface (12) of the steam generator container. Said fluid is set in rotation by the heating and thus pressed against the heatable wall surface (12), due to centrifugal forces arising from the rotation. The steam generated as a result of the evaporation of at least a part of the fluid escapes from the steam generator container through a steam outlet and droplets of fluid entrained in the steam are separated out by at least one first rotor (8), rotatably mounted in the steam generator container, whereby the fluid is set in rotation by said rotor. The invention further relates to a device using the above method. | ||||||
| 20 | VERFAHREN UND VORRICHTUNG ZUM ERZEUGEN VON DAMPF, INSBESONDERE FÜR EIN GARGERÄT | EP01960158.2 | 2001-08-08 | EP1307690A1 | 2003-05-07 | SCHREINER, Thomas; KOHLSTRUNG, Peter; MAAS, Bruno; WIEDEMANN, Peter; JUNKER, Elmar |
| The invention relates to a method for the generation of steam, in particular for a cooking device, whereby a fluid within a steam generator container is brought to the boil, by the heating of at least one heatable wall surface (12) of the steam generator container. Said fluid is set in rotation by the heating and thus pressed against the heatable wall surface (12), due to centrifugal forces arising from the rotation. The steam generated as a result of the evaporation of at least a part of the fluid escapes from the steam generator container through a steam outlet and droplets of fluid entrained in the steam are separated out by at least one first rotor (8), rotatably mounted in the steam generator container, whereby the fluid is set in rotation by said rotor. The invention further relates to a device using the above method. | ||||||
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