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    • 1. 发明授权
    • Method and apparatus in a fluidized bed heat exchanger
    • 流化床热交换器中的方法和装置
    • US06962676B1
    • 2005-11-08
    • US09806469
    • 1999-09-29
    • Timo Hyppänen
    • Timo Hyppänen
    • F23C10/02F22B1/02F22B31/00F23C10/10F23C10/28F28D13/00F27B15/00
    • F22B31/0084F23C10/10F28D13/00
    • A method and an apparatus in a fluidized bed heat exchanger including a heat exchange chamber having a fluidized bed of solid particles, heat transfer surfaces, an inlet, and an outlet. Particles are fed through the inlet onto the upper surface of the bed of solid particles by a guiding channel. The guiding channel, which extends from above the upper surface of the bed of solid particles to the surface thereof, or to below the surface, passes the solid particles to the restricted area of the surface. The outlet is formed in the area of the guiding channel to remove particles from the area delimited by the guiding channel. Uncooled particles can thus be removed from the heat exchange chamber.
    • 流化床热交换器中的方法和装置,其包括具有固体颗粒流化床,传热表面,入口和出口的热交换室。 颗粒通过引导通道通过入口进入固体颗粒床的上表面。 从固体颗粒床的上表面上方延伸到其表面或表面下方的引导通道将固体颗粒传递到表面的限制区域。 出口形成在引导通道的区域中以从由引导通道界定的区域中除去颗粒。 因此,可以从热交换室除去未冷却的颗粒。
    • 2. 发明授权
    • Method of and apparatus for decreasing attack of detrimental components of solid particle suspensions on heat transfer surfaces
    • 降低传热表面固体颗粒悬浮液有害成分侵蚀的方法和装置
    • US06293781B1
    • 2001-09-25
    • US09194756
    • 1999-05-17
    • Timo Hyppänen
    • Timo Hyppänen
    • F22B3100
    • B01J8/388B01J8/26F22B31/0084F23C10/005F23C10/10F23C2206/103
    • A method of and apparatus for decreasing attack of detrimental components of solid particle suspensions on heat transfer surfaces in a heat transfer chamber in a fluidized bed reactor. The method includes introducing solid particles into a first chamber, which is a dilution chamber, on top of a bed of solid particles therein through a dilution chamber inlet disposed in an upper part of the dilution chamber, and discharging solid particles from the dilution chamber through an outlet disposed in a lower part of the dilution chamber, into a heat transfer chamber, and introducing a flushing gas into at least a portion of the dilution chamber for performing at least one of inactivating in and separating from the bed of solid particles in the dilution chamber, impurities detrimental to heat transfer surfaces in the heat transfer chamber.
    • 用于减少流化床反应器中的传热室中的传热表面上的固体颗粒悬浮液的有害组分的侵蚀的方法和装置。 该方法包括将固体颗粒通过布置在稀释室上部的稀释室入口引入固定颗粒床顶部的稀释室的第一室中,并从稀释室排出固体颗粒,通过 设置在所述稀释室的下部的出口进入传热室,并且将冲洗气体引入所述稀释室的至少一部分中,以进行至少一种在所述稀释室中的固体颗粒床的失活和分离 稀释室,对传热室中传热表面有害的杂质。
    • 4. 发明授权
    • Apparatus and a method for separating particles from hot gases
    • 用于从热气体中分离颗粒的装置和方法
    • US06294001B1
    • 2001-09-25
    • US09308339
    • 1999-05-18
    • Timo HyppänenJari Ristola
    • Timo HyppänenJari Ristola
    • B01D4512
    • B01D45/16B04C5/04B04C5/081B04C5/085B04C5/20B04C5/28F23C10/10F23J15/027
    • An apparatus that includes (i) a centrifugal separator assembly and (ii) a fluidized bed reactor having a reactor chamber, the separator assembly being connected to the reactor and provided for separating solid particles from gas discharged from the reactor chamber. The apparatus includes planar peripheral walls defining a vortex chamber, having a rectangular cross section, the vortex chamber having an interior gas volume in which at least two vertical gas vortices can be formed, and the planar peripheral walls including a first wall portion connecting the separator assembly to the reactor chamber, at least two gas outlets, disposed one after the other in the longitudinal direction of the vortex chamber, for discharging cleaned gas from the gas volume, at least one solid particles outlet for discharging separated solid particles from the gas volume, and at least one gas inlet, arranged in the first wall portion, for introducing gas from the reactor chamber into the gas volume. The at least one gas inlet includes at least two inlet ducts which are mainly perpendicular to the first wall portion and arranged side-by-side in the first wall portion within a less than ninety degree sector of one gas vortex within the vortex chamber.
    • 一种装置,其包括(i)离心分离器组件和(ii)具有反应器室的流化床反应器,所述分离器组件连接到所述反应器并且用于从固体颗粒与从反应器室排出的气体分离。 该装置包括限定具有矩形横截面的涡流室的平面周壁,该涡流室具有内部气体容积,在该内部气体容积中可形成至少两个垂直气体涡流,并且该平面周壁包括连接分离器的第一壁部分 组装到反应室,至少两个气体出口,沿涡流室的纵向方向一个接一个地设置,用于从气体体积排出净化气体,至少一个固体颗粒出口,用于从气体体积排出分离的固体颗粒 以及布置在第一壁部分中的至少一个气体入口,用于将气体从反应器室引入气体体积中。 所述至少一个气体入口包括至少两个入口管道,所述至少两个入口管道主要垂直于所述第一壁部分并且在所述涡流室内的一个气体涡流的小于九十度的扇区内并排布置在所述第一壁部分中。
    • 5. 发明授权
    • Method and apparatus for separating particles from hot gases
    • 用于从热气体中分离颗粒的方法和装置
    • US06802890B2
    • 2004-10-12
    • US10240773
    • 2003-02-06
    • Timo Hyppänen
    • Timo Hyppänen
    • B01D4516
    • B01J8/26B01D45/12B01J8/0055B01J8/388B01J19/006B01J2219/0077B01J2219/0218B04C5/081B04C5/085B04C5/20B04C5/28F23C10/10F23J15/027F23J2900/15025F23J2900/15026
    • A centrifugal separator assembly, which is attached to a fluidized bed reactor for separating solid particles from gas exhausted from a reaction chamber of the fluidized bed reactor, includes a vortex chamber. The vortex chamber is in a horizontal direction defined by vertically-extending outer walls formed of planar water tube panels, the inside of the outer walls being at least partly provided with a refractory lining and defining a gas space in the vortex chamber, where at least one vertical gas vortex is established. The separator assembly also includes at least one inlet for introducing gas into the gas space from the reaction chamber, at least one outlet for discharging purified gas from the gas space, and at least one outlet for discharging separated solid particles from the gas space. In the separator assembly, the vertically-extending outer walls of the vortex chamber form at least one corner, with the angle between the sides of the corner exceeding ninety degrees, and the corner being rounded by a refractory lining on the inside of the outer walls. A method of separating solid particles from exhausted gas with a high degree of particle separation is also provided. In the method, which includes providing a separator assembly as described above, exhausted gas in the vortex chamber is brought to hit at least one corner rounded by the refractory lining on the inside of the outer walls, and the angle between the vertically-extending outer walls of the corner exceeds ninety degrees.
    • 离心分离器组件,其连接到流化床反应器,用于将固体颗粒与从流化床反应器的反应室排出的气体分离,包括涡流室。 涡流室处于由平面水管板形成的垂直延伸的外壁限定的水平方向上,外壁的内部至少部分地设置有耐火衬里并且在涡流室中限定气体空间,其中至少 建立了一个垂直气体涡流。 分离器组件还包括用于将气体从反应室引入气体空间的至少一个入口,用于从气体空间排出净化气体的至少一个出口和用于从气体空间排出分离的固体颗粒的至少一个出口。 在分离器组件中,涡流室的垂直延伸的外壁形成至少一个角部,角部的两侧之间的角度超过九十度,并且角部由外壁内侧的耐火衬里 。 还提供了一种从高效颗粒分离的排气中分离固体颗粒的方法。 在包括提供如上所述的分离器组件的方法中,涡流室中的排出的气体被撞击至少一个由外壁内侧上的耐火衬里圆角的角部,并且垂直延伸的外部 角落的墙壁超过九十度。
    • 6. 发明授权
    • Circulating fluidized bed reactor
    • 循环流化床反应器
    • US06631698B1
    • 2003-10-14
    • US10129183
    • 2002-09-05
    • Timo HyppänenKari Kauppinen
    • Timo HyppänenKari Kauppinen
    • B09B300
    • F23C10/10F22B31/0084F23C2900/10008
    • A circulating fluidized bed reactor includes a furnace, defined by a substantially vertical and planar first wall, and a particle separator having a return duct adjacent to the first wall. In the lower part of the return duct is arranged a gas seal adjacent to a planar tube wall, which wall is the planar wall or a wall defining a space in gas flow connection with the furnace. The width of the horizontal cross section of the lower part of the return duct, measured in the direction of the first wall, is larger than its depth, measured perpendicular to the width. The gas seal includes a seal structure that includes water tubes bent from the tube wall.
    • 循环流化床反应器包括由基本垂直和平坦的第一壁限定的炉,以及具有与第一壁相邻的返回管的颗粒分离器。 在返回管道的下部设置有邻近平面管壁的气体密封件,该壁是平面壁或限定与炉气流连接的空间的壁。 在第一壁的方向上测量的返回管道的下部的水平截面的宽度大于其垂直于宽度测量的深度。 气体密封件包括密封结构,其包括从管壁弯曲的水管
    • 7. 发明授权
    • Method and apparatus in a fluidized bed reactor
    • 流化床反应器中的方法和装置
    • US06470833B1
    • 2002-10-29
    • US09856267
    • 2001-05-18
    • Timo Hyppänen
    • Timo Hyppänen
    • F28D1500
    • F23C10/10F22B31/0084F23C10/18
    • A fluidized bed reactor includes a furnace defined by side walls, a roof, and a continuous bottom, and has a solid particle bed in the furnace. Vaporizing surfaces form at least two principally vertical chambers. The chambers have a round or polygonal cross section, and extend from the bottom upwards to at least 80% of the height of the furnace. Also, the chambers are spaced away from the side walls of the furnace and are arranged separately within the furnace, for the furnace volume to be free so that the particles move even in the proximity of the chambers.
    • 流化床反应器包括由侧壁,屋顶和连续底部限定的炉,并且在炉中具有固体颗粒床。 蒸发表面形成至少两个主要是垂直的室。 这些室具有圆形或多边形横截面,并且从底部向上延伸到炉的高度的至少80%。 此外,这些室与炉的侧壁间隔开,并且分别设置在炉内,以使炉体自由,使得颗粒甚至在室附近移动。