子分类:
| 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 | 汽相加热器 | CN02151409.7 | 2002-09-20 | CN1430038A | 2003-07-16 | G·奈洛尔 |
| 一种汽相加热器,它包括多个细长的,中空加热通道;一个具有蒸汽产生腔的蒸汽产生器,上述蒸汽产生腔在每个通道的下端通过流体流动和它们的内部相连通;至少一个穿过蒸汽产生腔的热量输入管;一种流体,它可由热量输入管供热而蒸发;和汽流连接装置,其在该通道下端可以拆下的某个部位与蒸汽产生器和各通道相连通,从而对于蒸汽产生器产生的蒸汽提供了通过各个通道的导管。 | ||||||
| 2 | 貫流水平蒸発器のチューブ配置 | JP2018500533 | 2016-07-05 | JP2018524547A | 2018-08-30 | シノイ,シュレッシュ・コタチャリー; マギー,ジェフリー・フレドリック |
| 本明細書では、入口マニホールド(202)と、入口マニホールドと流体連通する入口ヘッダ(204)と、チューブ積層体であって、各チューブ積層体が、傾いた蒸発器チューブを含み、チューブ積層体が、入口ヘッダと流体連通し、傾いたチューブが、鉛直に対して90度より小さな角度、または90度より大きな角度で傾き、各チューブ積層体が、複数の列と複数の段とに配置された複数のチューブを含み、第1の列の複数のチューブが、第2の列の複数のチューブから距離d2だけずらされ、第1の段の複数のチューブが、第2の段の複数のチューブから距離d1だけずらされ、d1が0.1d2から1000d2まで変わる、チューブ積層体(210)と、チューブ積層体と流体連通する出口ヘッダと、出口ヘッダと流体連通する出口マニホールドとを備える貫流蒸発器(200)が開示される。 【選択図】図3 |
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| 3 | Vapor phase heater | JP2002278191 | 2002-09-24 | JP2003227601A | 2003-08-15 | NAYLOR GEOFFREY |
| PROBLEM TO BE SOLVED: To secure a vapor track in a low angle heater and to develop a rotational recovery mechanism of condensed water. SOLUTION: This vapor phase heater is provided with: a plurality of elongated hollow heater tracks; a vapor generator having a vapor generating chamber fluid-coupled to the inside of each track at the lower end part of each track; at least one heat input tube generating through the vapor generating chamber; a fluid which can be evaporated by heat supplied through the heat input tube; and a vapor flow connector communicating with the vapor generator and the inside of each track at a location removed from the lower end of the track to provide a conduit for vapor produced in the vapor generator to pass into each track. COPYRIGHT: (C)2003,JPO | ||||||
| 4 | TUBE ARRANGEMENT IN A ONCE-THROUGH HORIZONTAL EVAPORATOR | EP16739053.3 | 2016-07-05 | EP3320261A1 | 2018-05-16 | SHENOY, Suresh, Kotachary; MAGEE, Jeffrey, Frederick |
| Disclosed herein is a once-through evaporator comprising an inlet manifold; one or more inlet headers in fluid communication with the inlet manifold; one or more tube stacks, where each tube stack comprises one or more inclined evaporator tubes; the one or more tube stacks being in fluid communication with the one or more inlet headers; where the inclined tubes are inclined at an angle of less than 90 degrees or greater than 90 degrees to a vertical; where each tube stack comprises a plurality of tubes arranged in a plurality of columns and a plurality of rows; where a plurality of tubes in a first column are offset from a plurality of tubes in a second column by a distance d2 and where a plurality of tubes in a first row are offset from a plurality of tubes in a second row by a distance d1; where d1 varies from 0.1d2 to 1000d2; one or more outlet headers in fluid communication with one or more tube stacks; and an outlet manifold in fluid communication with the one or more outlet headers. | ||||||
| 5 | Vapour phase heaters | EP02021018.3 | 2002-09-20 | EP1296100A3 | 2003-12-17 | Naylor, Geoffrey |
A vapour phase heater comprising:
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| 6 | Vapour phase heaters | EP02021018.3 | 2002-09-20 | EP1296100A2 | 2003-03-26 | Naylor, Geoffrey |
A vapour phase heater comprising:
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| 7 | 상향 가스 유동을 위한 수직 덕트와 관련된 자연 순환 증기 발생기의 증발 사이클 | KR1020167028615 | 2014-03-21 | KR1020160130500A | 2016-11-11 | 알바레스루이스프란시스코하비에르; 피사로프란시스코 |
| 본발명은, 상향가스유동 (14) 을위한수직덕트 (12) 와관련된자연순환증기발생기의증발사이클 (10) 에관한것으로, 본증발사이클은, 증기드럼 (16); 다운코머튜브와유동연통하고, 제 1 증발섹션 (28), 및상기제 1 증발섹션과병렬로연결되고상기제 1 증발섹션보다높은레벨에배치된제 2 증발섹션 (30) 을포함하는증발기 (20) 로서, 상기증발섹션각각은다수의병렬연결된증발튜브들 (32, 42) 을포함하고상기수직덕트에걸쳐실질적으로수평의통로 (34) 또는다수의직렬연결된실질적으로수평의통로들 (44, 44') 을구비하는, 상기증발기 (20); 및상기증발기와유동연통하는상향튜브 (22) 를포함한다. 본발명에따르면, 증발기사이클은상기증발기에서의물의유동을보조하기위해상기가스유동으로부터유래하는열 이외에다른외부구동력소스와관련되지않고, 상기증발기는, 상기제 1 및제 2 증발섹션들로부터상기상향튜브쪽으로증기와물을가져가기위한수직으로배치된출구매니폴드 (40) 를포함하고, 상기출구매니폴드는하측부분 (38) 및상기하측부분위의상측부분 (48) 을포함한다. 더욱이, 상기제 1 증발섹션은상기하측부분과직접유동연통하고, 상기제 2 증발섹션은상기상측부분과직접유동연통한다. | ||||||
| 8 | Steam generation apparatus and associated control system and methods for startup | US15058040 | 2016-03-01 | US10125973B2 | 2018-11-13 | Randall J. Davis; Charles F. Noll, Jr. |
| The current disclosure relates to a method of steam generation. Particularly, the current disclosure relates to steam generation supply apparati and associated control systems that are used for enhanced oil recovery. Certain embodiments are provided including methods and associated control systems related to the startup as well as main steam pressure header control or maintenance of a desired steam quality for such steam generation systems during normal operation. | ||||||
| 9 | Apparatus that provides and evaporation cycle of a natural circulation steam generator in connection with a vertical duct for upward gas flow | US15122649 | 2014-03-21 | US10125972B2 | 2018-11-13 | Francisco Javier Alvarez Ruiz; Francisco Pizarro |
| An evaporation cycle of a natural circulation steam generator. An evaporator is in flow connection with a downcomer pipe and includes a first evaporative section and a second evaporative section connected in parallel with the first evaporative section and arranged at a higher level than the first evaporative section. The evaporator cycle is not associated with another external source of motive force than heat from the gas flow to assist the flow of the water in the evaporator, and the evaporator has a vertically extending outlet collector for collecting the steam and water from the first and second evaporative sections to the riser pipe. The outlet collector includes a lower portion and an upper portion above the lower portion. The first evaporative section is in direct flow connection with the lower portion and the second evaporative section is in direct flow connection with the upper portion. | ||||||
| 10 | EVAPORATION CYCLE OF A NATURAL CIRCULATION STEAM GENERATOR IN CONNECTION WITH A VERTICAL DUCT FOR UPWARD GAS FLOW | US15122649 | 2014-03-21 | US20170067630A1 | 2017-03-09 | Francisco Javier Alvarez Ruiz; Francisco Pizarro |
| An evaporation cycle of a natural circulation steam generator. An evaporator is in flow connection with a downcomer pipe and includes a first evaporative section and a second evaporative section connected in parallel with the first evaporative section and arranged at a higher level than the first evaporative section. The evaporator cycle is not associated with another external source of motive force than heat from the gas flow to assist the flow of the water in the evaporator, and the evaporator has a vertically extending outlet collector for collecting the steam and water from the first and second evaporative sections to the riser pipe. The outlet collector includes a lower portion and an upper portion above the lower portion. The first evaporative section is in direct flow connection with the lower portion and the second evaporative section is in direct flow connection with the upper portion. | ||||||
| 11 | Steam generation apparatus and associated control system and methods for startup | US14030618 | 2013-09-18 | US09303865B2 | 2016-04-05 | Randall J. Davis; Charles F. Noll, Jr. |
| The current disclosure relates to steam generation and supply apparati and associated control systems. Particularly, the current disclosure relates to such steam generation supply apparati and associated control systems that are used for enhanced oil recovery. Certain embodiments are provided including methods and associated control systems related to the startup as well as main steam pressure header control or maintenance of a desired steam quality for such steam generation systems during normal operation. | ||||||
| 12 | Vapour phase heaters | US10247802 | 2002-09-19 | US20030123862A1 | 2003-07-03 | Geoffrey Naylor |
| A vapour phase heater includes a plurality of elongated hollow heater tracks. A vapour generator having a vapour generation chamber is in fluid communication with the interior of each track. At least one heat input tube extends through the vapour generation chamber wherein a vapourized fluid is supplied to the heat input tubes. A vapour flow connector communicates with the vapour generator and the interior of each track so as to provide conduits for vapour produced in the vapour generator to pass into each track. | ||||||
| 13 | Boiler | US64242723 | 1923-05-31 | US2042618A | 1936-06-02 | BRADLEY MURRAY JOSEPH; MURRAY JR THOMAS E; MURRAY JOHN F |
| 14 | Heating-boiler. | US1914812631 | 1914-01-17 | US1142323A | 1915-06-08 | GUNCKEL PEARL L |
| 15 | Steam-generator. | US1911658082 | 1911-11-02 | US1071536A | 1913-08-26 | TURNBULL HENRY ALEXANDER; DAVIS GEORGE FREDERICK FRANCIS; TURNBULL ARTHUR JOHN BARKLY |
| 16 | Hot-water boiler. | US1909493877 | 1909-05-04 | US978365A | 1910-12-13 | GEIS WILLIAM H |
| 17 | Heater. | US1909516218 | 1909-09-04 | US971134A | 1910-09-27 | MERRILL ALFRED H |
| 18 | Boiler. | US1907398728 | 1907-10-23 | US932445A | 1909-08-31 | CHAPMAN CHARLES EDWARD |
| 19 | Boiler. | US1907402239 | 1907-11-15 | US910133A | 1909-01-19 | KINDERVATER JULIUS |
| 20 | Water-tube boiler. | US1906348754 | 1906-12-20 | US866103A | 1907-09-17 | WHELDON GEORGE H; CURLE CHARLES W |
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