| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | TUBE ARRANGEMENT IN A ONCE-THROUGH HORIZONTAL EVAPORATOR | PCT/IB2013050460 | 2013-01-17 | WO2013108218A2 | 2013-07-25 | TRUONG VINH Q; LECH CHRISTOPHER J; MAGEE JEFFREY F |
| 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; 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. | ||||||
| 142 | FLOW CONTROL DEVICES AND METHODS FOR A ONCE-THROUGH HORIZONTAL EVAPORATOR | PCT/IB2013050457 | 2013-01-17 | WO2013108216A2 | 2013-07-25 | WILHELM BRUCE W; ZHANG WEI; MAGEE JEFFREY F; TRUONG VINH Q |
| 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 substantially horizontal evaporator tubes; the one or more tube stacks being in fluid communication with the one or more inlet headers; one or more outlet headers in fluid communication with one or more tube stacks; an outlet manifold in fluid communication with the one or more outlet headers; and a plurality of flow control devices to dynamically control the fluid flow to a respective inlet header. | ||||||
| 143 | 연소가스의 오염물질을 저감시키는 고압 증기 발생 장치 | KR1020170112550 | 2017-09-04 | KR101895379B1 | 2018-09-05 | 홍영근; 이봉희; 이준복 |
| 본발명은연소가스의오염물질을저감시키는고압증기발생장치에관한것으로, 본발명에따른고압증기발생장치는보일러의연소실구조를개선하여화염의완전연소를유도함으로써연소효율을높이고, 연소가스에포함되는오염물질의양을줄일수 있다. | ||||||
| 144 | 상향 가스 유동을 위한 수직 덕트와 관련된 자연 순환 증기 발생기의 증발 사이클 | KR20187009929 | 2014-03-21 | KR20180038083A | 2018-04-13 | |
| 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. | ||||||
| 145 | 관류형 수평 증발기에서 튜브 배열 | KR1020167015030 | 2013-01-17 | KR1020160075789A | 2016-06-29 | 트루옹빈큐.; 레치크리스토퍼제이.; 매기제프리에프. |
| 본원에는관류형증발기가개시되며, 상기관류형증발기는입구매니폴드; 상기입구매니폴드와유체소통하는하나이상의입구헤더들; 하나이상의경사진증발기튜브들을각각포함하는하나이상의튜브스택들로서, 상기하나이상의입구헤더들과유체소통하고, 상기경사진튜브들이수직에대하여 90°미만또는 90°보다큰 각도로경사지는상기하나이상의튜브스택들; 상기하나이상의튜브스택들과유체소통하는하나이상의출구헤더들; 및상기하나이상의출구헤더들과유체소통하는출구매니폴드를포함한다. | ||||||
| 146 | 열교환기 증폭장치 | KR1020120068517 | 2012-06-26 | KR1020140000888A | 2014-01-06 | 강성필 |
| The present invention relates to an amplifier for a heat exchanger and, more specifically, to an amplifier for a heat exchanger which is provided to amplify heat exchange efficiency by activating a water flow passing a heat exchange pipe by rapidly enabling an intake and a discharge in both directions by expanding the inside of the heat exchange pipe by generating vapor in an air expansion unit when arranging and heating the air expansion unit in the upper part and a storage unit in the lower part of the center of the heat exchange pipe which is used in a boiler or a heater for delivering heat by arranging multiple heat exchange pipes. The present invention has advantages of: amplifying heat exchange efficiency by the following steps of arranging the heat exchange pipe passing through a water storage unit in a heating unit, arranging the air expansion unit in the upper side and the storage unit in the lower side in the internal center part of the heat exchange pipe which is exposed to the heating unit, arranging an amplification plate in a main body in order to maintain an amplification interval unit corresponding to an opening unit in both sides of the heat exchange pipe, expanding the inside of the heat exchange pipe by generating vapor from the water surface of the air expansion unit of the heat exchange pipe by the heat generated in the heating unit, and enabling a rapid discharge and a rapid intake in both directions; rapidly heating water inside the heat exchange pipe by a small heat source while reducing manufacturing costs by a simple structure; and increasing heat efficiency by the small heat source by enabling an easy heat exchange with the simple structure. | ||||||
| 147 | 관류형 수평 증발기용 유동 제어 디바이스 및 방법 | KR1020137019920 | 2013-01-17 | KR1020130135891A | 2013-12-11 | 윌헬름브루스더블유.; 장웨이; 매기제프리에프.; 트루옹빈큐. |
| 입구매니폴드; 상기입구매니폴드와유체연통하는하나이상의입구헤더들; 하나이상의튜브스택들로서, 각각의튜브스택은하나이상의실질적으로수평증발기튜브들을포함하고, 상기하나이상의튜브스택들이상기하나이상의입구헤더들과유체연통하는, 상기하나이상의튜브스택들; 상기하나이상의튜브스택들과유체연통하는하나이상의출구헤더들; 상기하나이상의출구헤더들과유체연통하는출구매니폴드; 및각각의입구헤더로의유체유동을동적으로제어하기위한복수의유동제어디바이스들을포함하는관류형증발기가개시된다. | ||||||
| 148 | 폐열회수를 이용한 과열증기발생장치 | KR1020110133922 | 2011-12-13 | KR101266916B1 | 2013-05-29 | 김태진; 조용국 |
| PURPOSE: A superheated steam generating device using waste-heat recovery is provided to minimize the thermal stress of an operating fluid tube through where a high temperature, high pressure operating fluid flows, thereby minimizing possibility of a leakage of the operating fluid. CONSTITUTION: A superheated steam generating device using waste-heat recovery comprises a housing unit(10), a plurality of exhaust gas tubes(21), and a plurality of working fluid tubes(31). The housing unit includes an inflow tank(11) into where exhaust gas flows and an outflow tank(12) where the exhaust gas flows out in both ends. The plurality of exhaust gas tubes is installed inside the housing unit and arranged while being spaced at a constant interval. The plurality of operating fluid tubes is arranged between the exhaust gas tubes. An inflow pipe(51) where operating fluid flows into and an outflow pipe(52) where the operating fluid flows out are installed in one side of the housing unit. The inflow and outflow pipes are connected to be individually communicated with the operating fluid tubes. The top surface and the bottom surface of the each operating fluid tube are directly in contact with the adjacent exhaust gas tube. | ||||||
| 149 | 배기가스 챔버 분리형 폐열보일러 | KR1020110062167 | 2011-06-27 | KR1020130001433A | 2013-01-04 | 시종민 |
| PURPOSE: A waste boiler with a separated exhaust gas chamber is provided to receives exhaust gas discharged from a power plant system even though a part of the power plant system is stopped, thereby continuously maintaining the operation of the waste boiler. CONSTITUTION: A waste boiler with a separated exhaust gas chamber comprises a body(10), an exhaust gas inlet chamber(30), an exhaust gas inlet pipe(40), an exhaust gas outlet chamber(50), and an exhaust gas outlet pipe(60). A plurality of tubes in which exhaust gas flows is horizontally arranged in the body and water is charged in the inside of the body. The exhaust gas inlet chamber is a structure of three or more exhaust gas inflow spaces and assembled in one side of the body. An end portion of the exhaust gas inlet pipe is connected to each entrance of the exhaust gas inflow spaces and the other end portion of the exhaust gas inlet pipe is connected to an exhaust gas discharging unit. The exhaust gas outlet chamber is a structure of three or more exhaust gas outflow spaces and assembled in the other side of the body. The exhaust gas outlet pipe is mounted in each entrance of the exhaust gas outflow spaces. | ||||||
| 150 | 태양-열 발전기용 증기 생성을 위한 열 교환기 | KR1020127001057 | 2010-06-24 | KR1020120055536A | 2012-05-31 | 스타루트,죠르그; 헤그너,볼프강; 반드,디르크 |
| 본 발명은 태양 열 발전기용 증기 흐름을 생성하는 열 교환기에 관한 것으로, 케이싱-측 유체를 수용하는 케이싱과, 케이싱 내에 연장되는 파이프-측 유체용 파이프를 포함하며, 열은 파이프를 통해 파이프-측 유체로부터 케이싱-측 유체로 전달된다. 케이싱-측 유체는 물이고, 파이프-측 유체는 열 오일 또는 소금이다. 본 발명은 기동 변화도와 교대의 로드 변화도의 증가를 허용하므로, 발전기의 유용성을 증가시킨다. 또한, 더 높은 동작 안전성이 얻어질 수 있다. | ||||||
| 151 | 화목 스팀보일러 | KR1020080072865 | 2008-07-25 | KR1020100011587A | 2010-02-03 | 김연중 |
| PURPOSE: A firewood steam boiler is provided to increase the temperature of steam using the combustion heat of the combustion chamber by letting the steam transferred passing through the inner upper part of the combustion chamber. CONSTITUTION: A firewood steam boiler comprises a combustion chamber(2), a steam water storage(22), and a steam supply pipe. A door(3) is installed on the front side of the combustion chamber. An air supply part(7) is installed inside the combustion chamber and isolated from heat. The steam water storage generates steam by heating steam water using combustion chamber. The steam supply pipe transfers the steam by heating the steam more using the combustion heat of the combustion chamber. | ||||||
| 152 | 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. | ||||||
| 153 | 가열형 기화 장치 | KR1020150164080 | 2015-11-23 | KR1020160076426A | 2016-06-30 | 다구치아키히로; 야다히데타카 |
| 본발명은, 연속형의기화장치(100)에서, 컴팩트성을유지하면서, 재료가스의안정적또한대유량출력을가능하게하는것이며, 기화실(11a)을가지며, 해당기화실(11a)에도입된액체재료가기화하여생성되는재료가스를도출하는기화용탱크(11)와, 상기기화용탱크(11)를가열하여상기기화실(11a) 내에있는액체재료의기화를촉진하는히터(121)와, 상기기화실(11a)의하부공간을, 최초로액체재료가도입되는제1 하부공간(11e)과, 해당제1 하부공간(11e)으로부터넘친액체재료가도입되는제2 하부공간(11f)으로칸막이하는칸막이벽(6)을구비하도록했다. | ||||||
| 154 | 관류형 수평 증발기를 위한 기동 시스템 | KR1020137021217 | 2013-01-17 | KR101585902B1 | 2016-01-15 | 매기제프리에프. |
| 입구매니폴드; 상기입구매니폴드와유체소통하는하나이상의입구헤더들; 하나이상의실질적으로수평인증발기튜브들을각각포함하는하나이상의튜브스택들로서, 상기하나이상의입구헤더들과유체소통하고, 상기관류형증발기의기동을위하여사용되는상기하나이상의튜브스택들; 상기하나이상의튜브스택들과유체소통하는하나이상의출구헤더들; 상기하나이상의출구헤더들과유체소통하는분리기; 상기분리기및 기동을위해사용된상기튜브스택들중 적어도하나와유체소통하는제 1 유동제어디바이스; 상기분리기및 기동을위해사용된상기튜브스택들중 적어도하나를우회하도록과열기와유체소통하는제 2 유동제어디바이스; 및상기증발기의파라미터에응답하여상기제 1 및제 2 유동제어디바이스들의작동을제어하기위한제어기를포함하는관류형증발기가본 명세서에개시된다. | ||||||
| 155 | 관류형 수평 증발기용 유동 제어 디바이스 및 방법 | KR1020137019920 | 2013-01-17 | KR101536989B1 | 2015-07-16 | 윌헬름브루스더블유.; 장웨이; 매기제프리에프.; 트루옹빈큐. |
| 입구매니폴드; 상기입구매니폴드와유체연통하는하나이상의입구헤더들; 하나이상의튜브스택들로서, 각각의튜브스택은하나이상의실질적으로수평증발기튜브들을포함하고, 상기하나이상의튜브스택들이상기하나이상의입구헤더들과유체연통하는, 상기하나이상의튜브스택들; 상기하나이상의튜브스택들과유체연통하는하나이상의출구헤더들; 상기하나이상의출구헤더들과유체연통하는출구매니폴드; 및각각의입구헤더로의유체유동을동적으로제어하기위한복수의유동제어디바이스들을포함하는관류형증발기가개시된다. | ||||||
| 156 | 세라믹 다공성 증기 발생기를 구비한 보일러 시스템 | KR1020130089262 | 2013-07-29 | KR101448954B1 | 2014-10-13 | 김상봉; 김종수; 이도형; 김대환 |
| The present invention provides a boiler system having a porous ceramic steam generator, in which the heat of a burner is transmitted to a water pipe, through which water passes, via a porous ceramic heat transfer medium, the combustion of high efficiency and the boiler efficiency can be improved due to the maximized heat transfer area, and in which the boiler body can be downsized, and the environmental pollution can be prevented by low pollutant combustion since the burner load is decreased. The boiler system according to the present invention includes a boiler casing having a combustion chamber formed with an air inlet port for feeding air, and a flue having a gas outlet port for discharging combustion gas; a burner disposed in the combustion chamber to combust a fuel; and a steam generator disposed in the combustion chamber to generate steam. The steam generator has a porous ceramic heat transfer medium disposed in the combustion chamber and receiving the heat from the flame generated by the burner, and a water pipe disposed in the combustion chamber and receiving the heat from the porous ceramic heat transfer medium. | ||||||
| 157 | 연관식 겸용 수관식 스팀 보일러 | KR1020110012714 | 2011-02-14 | KR101277079B1 | 2013-06-20 | 유호묵 |
| 본 발명은 연관식 및 수관식 겸용 스팀 보일러에 관한 것으로서, 연관식 보일러의 장점인 경량 소형화 구조를 갖추면서도 수관식 보일러와 같은 열효율을 발휘할 수 있으며, 고온 가스가 보일러 부근에 체류하는 시간을 증가시키기 위한 업다운 (up-down) 방식의 연소 방식을 취함으로써, 배출가스의 폐열로 연소용 공기를 예열 시켜 열효율을 대폭 향상시킬 수 있고, 연소용 공기와 배출가스 간의 열교환 구조를 보일러 외부 벽면에 설치함으로써, 기존 보일러에 필수적으로 사용되었던 석면등을 이용한 보온자재를 별도로 설치하지 않아도 되는 스팀 보일러이다.
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| 158 | 웨이브핀을 이용한 과열증기발생장치 | KR1020110133936 | 2011-12-13 | KR101266917B1 | 2013-05-27 | 김태진; 조용국 |
| PURPOSE: A superheated steam generating device using wave fins is provided to enlarge a contact area for a heat exchange of operating fluid and exhaust gas, thereby improving heat exchange efficiency of the operating fluid. CONSTITUTION: A superheated steam generating device using wave pins comprises a housing unit(100), a plurality of wave fins(210), and a plurality of operating fluid tubes(310). The housing unit includes an inflow tank(110) into where exhaust gas flows and an outflow tank(210) where the exhaust gas flows out in both ends. The wave fins are arranged inside the housing unit while being vertically spaced at a constant distance. A plurality of protruded portions and a plurality of recessed portions are connected in a width direction and formed into a wavy form in a direction where the exhaust gas flows. The operating fluid tubes are arranged between the wave fins. An inflow pipe(510) into where operating fluid flows and an outflow pipe(520) out of where the operating fluid flows are installed in one side of the housing unit. The inflow and outflow pipes are connected to be individually communicated with the operating fluid tubes. | ||||||
| 159 | 화목 증기 보일러 | KR1020110077643 | 2011-08-04 | KR1020130015583A | 2013-02-14 | 김은숙 |
| PURPOSE: A firewood steam boiler is provided to supply-circulate cooling water through a water storage tank, thereby preventing thermal transformation caused by cooling an overheating unit. CONSTITUTION: A firewood steam boiler comprises a water storage tank, a cooling circulation pipe, and a steam chamber make-up water supply pipe line(140). The water storage tank is installed outside of the body. The cooling circulation pipe connects the water storage tank and an overheating unit including a brass stone. The steam chamber make-up water supply pipe connects a steam chamber(30) inside the boiler and the water storage tank. The water of the water storage tank is circulated through the cooling circulation pipe line so that the overheat of the brass stone is prevented, the temperature of the water inside the water storage tank, and the heated water of the water storage tank is supplied to the steam chamber of the boiler through the steam chamber supply pipe. | ||||||
| 160 | 연관식 겸용 수관식 스팀 보일러 | KR1020110012714 | 2011-02-14 | KR1020120092839A | 2012-08-22 | 유호묵 |
| PURPOSE: A tubular-water tube steam boiler is provided to enhancing thermal efficiency by preheating air for combustion with waste heat of a discharge gas by applying a combustion method of an up-down method for increasing time in which a hot gas stays near to a boiler. CONSTITUTION: A tubular-water tube steam boiler(100) comprises a boiler body(400), a burner(305), a water pipe(450), a cylinder inner tube(210), and a cylinder outer tube(200). The boiler body contains water and steam in an inside and a central part of the boiler body is penetrated. The burner throws flames(50) to the inner side of the central penetrated portion of the boiler body. The water pipe is formed across the inner side of the central penetrated portion of the boiler body, thereby being directly heated by the flames of the burner. The cylinder inner tube is formed by protecting the exterior of the boiler body and a burnt discharge gas(B) flows to a separated space between the cylinder inner tube and an external wall of the boiler body from downward to upward. The cylinder outer tube is formed by protecting the exterior of the cylinder inner tube and air(A) for combustion flows to a separated space between the cylinder outer tube and an external wall of the cylinder inner tube so the air is heat exchanged with the discharge gas. | ||||||
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