181 |
Ceramic linings for combustion space |
JP17574989 |
1989-07-10 |
JPH02104948A |
1990-04-17 |
JIIGUFURIITO FUERUSUTERU; PEETERU KUUERU |
PURPOSE: To eliminate formation of deposits of fuel components or decomposition and distillation products by forming a hollow space between an inner wall and an outer wall at a support of the inner wall, and at least partially covering the hollow space with the inner wall.
CONSTITUTION: A lining 1(1a) bent to the shape of a plate is formed of thin ceramic layers bonded to each other by sintering, where an inner wall 2a is bonded to an outer wall 3a via a support 4a, and a hollow space 5a covered by the inner wall 2a and the outer wall 3a is formed between the supports 4a and 4a, so that heat conductivity in the support 4a between the inner wall 2a and the outer wall 3a is reduced. As a consequence, the inner wall 2a also receives an extremely high temperature within the shortest time after ignition of a fuel mixture in a combustion space, and therefore combustion can catch the fuel of the wall 2a as well as the fuel near the wall. Thus, deposit of fuel components in a starting phase and actuation and the generation of decomposition and distillation products can be eliminated.
COPYRIGHT: (C)1990,JPO |
182 |
Fluidized bed type reforming furnace |
JP11816688 |
1988-05-17 |
JPH01290502A |
1989-11-22 |
MAEDA SADAHIKO; IDEI YASUMASA |
PURPOSE:To improve the uniform heat transfer of catalyst pipes and the response velocity for the variation of load to be efficiently allowed to reform in the fluidized bed type reforming furnace in which hydrocarbon fuel is changed into the gas the main component of which is hydrogen by disposing catalyst pipes in the specified arrangement. CONSTITUTION:Air and hydrocarbon fuel, such as city gas, preheated by a preheater 19 are supplied to a gas burner 16, and the gas fuel is burnt in a combustion chamber and the burnt gas is introduced from nozzles 40 to a fluidizing chamber 17. By this introduction of gas, the fluidizing and medium filled in the fluidizing chamber 17 is fluidized and heated to form a fluidized bed F, which uniformly heats the catalyst pipes 18. Plural pipes 18 are provided respectively in vertical direction and horizontal direction keeping horizontal state in the fluidizing chamber 17, and consequently, the number of the catalyst pipes 18 which are buried in the fluidized bed is increased or decreased according to the height caused by the variation of the load of the reforming furnace, and the fluctuation width of temp. of the fluidized bed F is reduced. Moreover, spiral body 70 is provided in the catalyst pipe 18 so that city gas and steam are flowed in a spiral flow in the catalyst layer 60 densely filled with catalyst, and reforming is efficiently carried out. |
183 |
Hot gas generator |
JP28901988 |
1988-11-17 |
JPH01159421A |
1989-06-22 |
JIYATSUKU AARU SHIEKURUTON |
PURPOSE: To generate a high temperature portion in a vessel and avoid carbon build-up so as to improve durability and the like by disposing a fuel introducing means, a fuel outlet, a heat shielding material and the like in a vessel forming a body portion of a hot gas generator.
CONSTITUTION: A turbine wheel 10 rotates when it receives hot gas from a nozzle 12 so as to drive an electric power generator 16 or the like via a gear box 14. The nozzle 12 is provided for the hot gas discharged from an outlet 20 of a vaporizing chamber 22. In this case, the vaporizing chamber 22 is connected to a vessel 24 having an inlet 26, an outlet 28 and a combustion chamber 30. A fuel injector 32 is disposed at the inlet 26 of the vessel 24 for injecting fuel to the combustion chamber 30 through an orifice 34. A heat shield material 50 is provided on an inner surface 48 of the vessel 24. An axial outlet 56 is disposed at the outlet 28 of the vessel 24. As a consequence, in the vessel 24, a high temperature portion is generated and carbon build-up is prevented.
COPYRIGHT: (C)1989,JPO |
184 |
Incineration equipment |
JP19290088 |
1988-08-03 |
JPS6449820A |
1989-02-27 |
JIEIMUZU EICHI MIYURAA; RODONII ERU PENINGUTON |
PURPOSE: To construct an incineration chamber with no limitation to the structural dimensions, dimensions or shape by constructing the wall part of a plurality of rows of block and providing means for stopping the end of an arcuate wall part to resist against inward collapse of wall due to a force. CONSTITUTION: A wall part 14 is constructed of blocks of zigzag joint (jointed by fitting a protrusion into a groove) and since the adjacent blocks in one row are nested each other, the wall part 14 has the thickness of substantially one block. In a fixing mechanism for absorbing compressive force being applied by an installed stone unit, the wall part 14 terminates at the opposite ends of arcuate outline. The fixing mechanism 29 comprises a refractory surface member 33 arranged oppositely to a refractory member 34, a plurality of steel fixing metals 35 for support, and a structure supporting member 36 interposed between adjacent end blocks 37, 38 of the arcuate wall, part 14 of an adjacent recovery chamber 12. An appropriate fixing mechanism or structure durable against the force generated at the opposite ends of the arcuate wall part 14 can be used. |
185 |
Generating set with combustion chamber in which fuel is burnt in fluidized bed of granular material |
JP19878886 |
1986-08-25 |
JPS6249105A |
1987-03-03 |
BERUTO KAARUMAN |
|
186 |
JPS62500044A - |
JP50360285 |
1985-08-12 |
JPS62500044A |
1987-01-08 |
|
|
187 |
JPS61502483A - |
JP50202585 |
1985-05-06 |
JPS61502483A |
1986-10-30 |
|
|
188 |
Exchange method of brick for boiler |
JP13389282 |
1982-07-30 |
JPS5924117A |
1984-02-07 |
KISO YOSHIYUKI |
PURPOSE:To eliminate the necessity of cutting heat transmitting tubes and shorten the term of works by a method wherein a casing board, having a proper width, is attached, the firebrick and insulating bricks are attached between the casing board and the heat transmitting tubes and the space between the casing board and the insulating bricks is filled with insulating cement. CONSTITUTION:The proper width of the upper part of the casing board 8, constituting the wall body 7 of the existing boiler, the insulating bricks 10 and the firebricks 9 are removed and a piece for preventing the dropping of ceiling bricks is attached at the same time. In the same manner, the proper width thereof are removed sequentially to remove the wall body 7 of the boiler. The casing board 8, having the proper width, is attached, the firebricks 9 and the insulating bricks 10 are laid between the casing board 8 and the heat transmitting tubes 3, and wooden pillars 12 are inserted between the casing board 8 and the insulating bricks 10 with a proper space to prevent the deviation of both bricks 9, 10. Next, the space between the casing board 8 and the insulating bricks 10 is filled with the insulating cement 11 and the proper width of them are laid in the same manner. |
189 |
JPS594604B2 - |
JP13560381 |
1981-08-31 |
JPS594604B2 |
1984-01-31 |
OKADA KYOMI |
|
190 |
Combustion apparatus for solid fuel |
JP12691782 |
1982-07-20 |
JPS5915706A |
1984-01-26 |
SONEDAKA KAZUNORI; NISHINO ATSUSHI; IKETANI KOREYOSHI; TOMIZAWA TAKESHI; SUZUKI TADAMI |
PURPOSE:To improve not only heat resistance but also various functional capability by forming a functional inorganic-substance layer to the surface of a heat collecting member. CONSTITUTION:The surface of the heat collecting member 5 is roughened through blasting, and a various-functional inorganic substance 8 is formed on the combustion section sides in 50-100mum by using a plasma flame spraying method. MgAl2O4, NiO, ZrO2, WC, TiO2 or TiC is used as the functional inorganic substance. Accordingly, rise characteristics are short, and the peak value of carbon monoxide is improved to a low value. |
191 |
Incinerator |
JP4794278 |
1978-04-24 |
JPS53136369A |
1978-11-28 |
JIYANNKUROODOU PIRARUDO |
|
192 |
JPS50158955A - |
JP5850375 |
1975-05-16 |
JPS50158955A |
1975-12-23 |
|
|
193 |
JPS4957221A - |
JP7238973 |
1973-06-28 |
JPS4957221A |
1974-06-04 |
|
|
194 |
JPS4832405B1 - |
JP1637070 |
1970-02-27 |
JPS4832405B1 |
1973-10-05 |
|
|
195 |
一种汽车燃油燃烧室 |
CN201120478749.9 |
2011-11-24 |
CN202325818U |
2012-07-11 |
马伟 |
本实用新型涉及汽车相关技术领域,特别是一种汽车燃油燃烧室,所述燃烧室包括:燃烧室底座以及与燃烧室底座嵌套的雾化装置。该燃烧室采用挥发雾化技术,燃油经过雾化网可直接挥发成气态与助燃空气混合形成可燃混合气体,燃烧稳定燃烧效率达99%以上,该燃烧结构低温启动可靠,合理地进风道设计更进一步提高了燃烧效率,采用优质耐高温不锈钢大大提高了使用寿命,不易产生积碳等。 |
196 |
낮은 NOx 방출물을 갖는 버너 조립체 |
KR20187005754 |
2016-07-19 |
KR20180034598A |
2018-04-04 |
|
본발명은열원을발생시키기위한버너조립체에관한것이다. 버너조립체는제 1 표면및 제 2 표면을갖는연소플레이트를포함할수 있다. 상기연소플레이트는제 1 원으로배열된, 상기제 1 표면으로부터상기제 2 표면으로연장하는제 1 복수의홀 및제 2 원으로배열된, 상기제 1 표면으로부터상기제 2 표면으로연장되는제 2 복수의홀을포함할수 있다. 제 1 원및 제 2 원은동심원으로배열될수 있다. 버너조립체는또한연소플레이트의평면으로부터제 1 예각으로연장되는길이방향축을갖는홀 중적어도하나를갖도록구성될수 있다. 버너조립체는또한연소플레이트의평면상에동심원들중 하나의접선으로부터제 2 예각으로연장되는길이방향축을갖는홀들중 적어도하나를갖도록구성될수 있다. |
197 |
미니화덕 |
KR1020170160696 |
2017-11-28 |
KR101832872B1 |
2018-02-27 |
김민규 |
본발명은단열을확실하게하면서도무게및 부피를대폭감소시켜휴대를할 수있는미니화덕에관한것으로, 본발명은일측에관통공(102)을구비하고있는단열본체(104)와; 상기단열본체(104)의상면에설치되어열을단열시켜주는제1세라믹기포단열재(108)와; 상기단열본체(104)의후방상면일측을따라내측으로일정높이경사지게설치되어구이공간으로열을안내해주는제1후방벽(110)과; 상기제1후방벽(110)으로부터일정간격을두고단열본체(104)의후방상면일측을따라일정높이로설치되는제2후방벽(112)과; 상기제1세라믹기포단열재(108)로부터일정간격을두고구이공간이형성되도록단열본체(104)의측방상면가장자리일측및 측방상면가장자리타측을따라설치됨과동시에제1후방벽(108) 내면일단을따라설치되는제1차단판(116)과; 상기제1차단판(116)으로부터일정간격을두고단열본체(104)의측방상면가장자리일측및 측방상면가장자리타측을따라설치됨과동시에제2후방벽(112) 내면일단을따라설치되는제2차단판(118)과; 상기제1차단판(116)과제2차단판(118) 사이에설치되어열을단열시켜주는제2세라믹기포단열재(124)를포함한다. |
198 |
연소불안정 계측이 가능한 연소장치 및 이를 이용한 연소불안정 계측방법 |
KR1020160054628 |
2016-05-03 |
KR101757114B1 |
2017-07-26 |
윤영빈; 주성필; 윤지수; 김정진 |
본발명은연소불안정계측이가능한연소장치에관한것으로써, 연소공간을형성하는본체부; 상기연소공간에화염이생성되도록상기연소공간으로연료를주입하는노즐부; 상기노즐부가설치되며, 상기본체부의일측면이마감되도록상기본체부에설치됨으로써상기연소공간의일측면을형성하며, 상기연소공간에서생성되는화염에의해온도의변화가발생되는덤프부; 상기연소공간의일측면을형성하는상기덤프부의일측면의온도를감지하여온도정보를생성하는온도감지부; 및상기온도정보를기초로연소의불안정여부를계측하는연산부를포함하되, 상기온도감지부는, 화염의거동에대응되는위치에설치되되, 복수개로마련되어상기노즐부를중심에두고원주방향을따라상기연소공간의일측면을형성하는상기덤프부의일측면에각각설치되는것을특징으로한다.본발명에따르면, 덤프부의온도를측정하여연소의불안정을효과적으로계측할수 있다. 또한, 본발명에따르면, 고가의동압센서를대신에저가의온도감지부를이용하게되므로, 연소불안정의계측에있어유지, 보수가용이해지고, 비용이크게절감되는효과가있다. |
199 |
오븐 및 이에 적용되는 도어 어셈블리 |
KR1020140098899 |
2014-08-01 |
KR1020160015916A |
2016-02-15 |
이동호 |
본발명은조리실을개폐하는도어의쿨링구조를개선한오븐에관한것이다. 본발명의일 실시예에따른오븐은, 케이싱, 상기케이싱내부에위치하고, 전면이개방된형상을가지는조리실및 내측에내부공간이형성되고, 상기조리실의개방된전면을개폐하도록마련되는도어어셈블리를포함하되, 상기도어어셈블리는상기도어어셈블리의전면상부에서내측으로오목한홈 형상으로마련된핸들부재, 상기내부공간에설치되어상기내부공간을분할하는내부판, 상기내부판과상기도어어셈블리의후면사이에위치하여공기의유동을차단하는차단부재, 상기도어어셈블리의저면에형성되고, 상기내부공간으로외기가유입되도록마련되는유입부및 상기도어어셈블리의상부에서상기핸들부재의후방에위치하고, 상기도어어셈블리외부로공기가이동되는공간을마련하는유출부를포함한다. |
200 |
연소 효율이 향상된 목재 연료 연소 장치의 연소실 구조 |
KR1020140077542 |
2014-06-24 |
KR1020160000316A |
2016-01-04 |
김성우 |
본발명은연소효율이향상된목재연료연소장치의연소실구조에관한것으로, 난로, 보일러, 온풍기등에사용되는화목(火木) 연료등으로구성되는목재연료연소장치에구비되는연소실의구조에있어서, 환경오염방지를위하여안정적인 2차연소환경을제공함과동시에, 적절한연소실냉각으로연소대기중인목재연료의안정성을유지시킴으로써, 열에너지출력을일정수준이상보장하면서장시간연소가가능하도록연소실의연소영역와비연소영역사이의열적불균형상태를극대화하여연소효율을향상시키는목재연료연소장치의연소실구조에관한것이다. |