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    • 2. 发明申请
    • A METHOD FOR INTENSIFYING ELECTRICAL PARTICLE FILTERING
    • 一种强化电粒子滤波的方法
    • WO2004094065A1
    • 2004-11-04
    • PCT/FI2004/050043
    • 2004-04-21
    • JANKA, KaukoKESKINEN, JormaLAITINEN, Ari
    • JANKA, KaukoKESKINEN, JormaLAITINEN, Ari
    • B03C3/01
    • B03C3/38B03C3/01B03C3/12
    • A method for charging flue gases in a combustion plant, which comprises at least a furnace (1) for burning fuel, a separating device (3) for cleaning flue gases, a flue gas channel (2), which is arranged to direct the flue gases from the furnace (1) to the separating device (3), a combustion chamber, which comprises at least a furnace (1) and a space of the flue gas channel (2), where the combustion process and the formation of particles substantially takes place, as well as one or more supply means (4, 5, 6, 7, 16) in connection with the combustion chamber (1) for supplying material to the combustion chamber. Electrically charged substance (8) is arranged to the combustion chamber (1) by means of at least one supply means (4, 5, 6, 7, 16). In addition, the invention relates to a combustion plant using the method.
    • 一种用于在燃烧设备中充入烟道气的方法,其至少包括用于燃烧燃料的炉子(1),用于清洁烟道气的分离装置(3),烟道气通道(2),其布置成引导烟道 从炉(1)到分离装置(3)的气体,至少包括炉(1)和烟道气体通道(2)的空间的燃烧室,其中燃烧过程和颗粒的形成基本上 以及与用于向燃烧室供应材料的燃烧室(1)相连接的一个或多个供应装置(4,5,6,7,16)。 带电物质(8)通过至少一个供应装置(4,5,6,7,16)设置到燃烧室(1)。 此外,本发明涉及使用该方法的燃烧装置。
    • 5. 发明申请
    • A METHOD AND A DEVICE FOR MEASUREMENT IN A PROCESS FOR MANUFACTURING A PLANAR GLASS COATING
    • 用于制造平面玻璃涂层的方法中的测量方法和装置
    • WO02059050A8
    • 2003-10-30
    • PCT/FI0200012
    • 2002-01-08
    • LIEKKI OYTIKKANEN JUHAKESKINEN JORMARAJALA MARKKU
    • TIKKANEN JUHAKESKINEN JORMARAJALA MARKKU
    • C03B19/14G02B6/132C03C17/02G02B6/12
    • G02B6/132C03B19/1423C03B2207/34C03B2207/46
    • The invention relates to a measurement method and device to be used in connection with a manufacturing process of a planar glass coating, in which manufacturing process for example a thermal reactor (10), such as a flame or plasma is used to produce aerosol particles (13) from reactants (12), which said aerosol particles (13) are guided on the surface of a substrate (14), thus forming a coating layer. According to the invention, the electric charge conveyed on the substrate (14) by the aerosol particles (13) entering the substrate is measured by means of a current measurement means (17) during the process to monitor the coating process. The current measurement means (17) is arranged to communicate with a process control unit (18) to adjust the process conditions according to predetermined threshold value. In an embodiment of the invention, the measurement is based on the electric charge attained intrinsically by the aerosol particles (13) during their formation. If necessary, it is also possible to use a separate charger (23), for example a so-called corona charger to charge the aerosol particles (13).
    • 本发明涉及一种与平面玻璃涂层的制造工艺相结合使用的测量方法和装置,其中使用诸如火焰或等离子体的热反应器(10)的制造工艺来产生气溶胶颗粒( 13)从所述气溶胶颗粒(13)被引导到衬底(14)的表面上的反应物(12),从而形成涂层。 根据本发明,在监测涂布过程的过程中,通过电流测量装置(17)测量在进入衬底的气溶胶颗粒(13)在衬底(14)上传送的电荷。 电流测量装置(17)被布置成与过程控制单元(18)进行通信,以根据预定阈值调整过程状态。 在本发明的一个实施例中,测量是基于气溶胶颗粒(13)在其形成过程中本质上获得的电荷。 如果需要,还可以使用单独的充电器(23),例如所谓的电晕充电器来对气溶胶颗粒(13)充电。
    • 7. 发明申请
    • A METHOD AND A DEVICE FOR MEASUREMENT IN A PROCESS FOR MANUFACTURING A PLANAR GLASS COATING
    • 用于制造平面玻璃涂层的方法中的测量方法和装置
    • WO2002059050A1
    • 2002-08-01
    • PCT/FI2002/000012
    • 2002-01-08
    • LIEKKI OYTIKKANEN, JuhaKESKINEN, JormaRAJALA, Markku
    • TIKKANEN, JuhaKESKINEN, JormaRAJALA, Markku
    • C03B19/14
    • G02B6/132C03B19/1423C03B2207/34C03B2207/46
    • The invention relates to a measurement method and device to be used in connection with a manufacturing process of a planar glass coating, in which manufacturing process for example a thermal reactor (10), such as a flame or plasma is used to produce aerosol particles (13) from reactants (12), which said aerosol particles (13) are guided on the surface of a substrate (14), thus forming a coating layer. According to the invention, the electric charge conveyed on the substrate (14) by the aerosol particles (13) entering the substrate is measured by means of a current measurement means (17) during the process to monitor the coating process. The current measurement means (17) is arranged to communicate with a process control unit (18) to adjust the process conditions according to predetermined threshold value. In an embodiment of the invention, the measurement is based on the electric charge attained intrinsically by the aerosol particles (13) during their formation. If necessary, it is also possible to use a separate charger (23), for example a so-called corona charger to charge the aerosol particles (13).
    • 本发明涉及一种与平面玻璃涂层的制造工艺相结合使用的测量方法和装置,其中使用诸如火焰或等离子体的热反应器(10)的制造工艺来产生气溶胶颗粒( 13)从所述气溶胶颗粒(13)被引导到衬底(14)的表面上的反应物(12),从而形成涂层。 根据本发明,在监测涂布过程的过程中,通过电流测量装置(17)测量在进入衬底的气溶胶颗粒(13)在衬底(14)上传送的电荷。 电流测量装置(17)被布置成与过程控制单元(18)进行通信,以根据预定阈值调整过程状态。 在本发明的一个实施例中,测量是基于气溶胶颗粒(13)在其形成过程中本质上获得的电荷。 如果需要,还可以使用单独的充电器(23),例如所谓的电晕充电器来对气溶胶颗粒(13)充电。
    • 10. 发明申请
    • METHOD AND DEVICE FOR DETECTING BIOLOGICAL MATERIAL
    • 用于检测生物材料的方法和装置
    • WO2011154605A1
    • 2011-12-15
    • PCT/FI2011/050534
    • 2011-06-07
    • ENVIRONICS OYJANKA, KaukoKESKINEN, JormaPUTKIRANTA, MattiSAARI, SampoBENGTSSON, Katja
    • JANKA, KaukoKESKINEN, JormaPUTKIRANTA, MattiSAARI, SampoBENGTSSON, Katja
    • G01N15/14G01N21/53G01N21/64
    • G01N21/6486G01N15/1459G01N21/53G01N21/645G01N2021/6493
    • The invention relates to a method for detecting biological material in an airstream, in which method the airstream (16) is fed with the aid of sampling devices (12), a light beam (17) is emitted towards the airstream (16), a fluorescence signal (24) depicting the fluorescence of the particle (14) is created, a scattering signal (32) depicting the scattering of the light of the particle (14) is created, the fluorescence signal (24) and the scattering signal (32) are converted into discrete values, and an alarm value is defined, the discrete values are recorded cumulatively as hit points in an at least 2 - dimension a 1 measurement space equipped with selected dimensions, at least one index area (56, 58, 60) is preselected from the said measurement space, a cumulative index is calculated at an index frequency from the hit points accumulated on the each preselected index area (56, 58, 60), an alarm value, showing the presence of a selected biological material, is de fined from the said indices by using a preselected criterion.
    • 本发明涉及一种用于检测气流中的生物材料的方法,在该方法中,气流(16)借助采样装置(12)进给,朝向空气流(16)发射光束(17), 产生描绘颗粒(14)的荧光的荧光信号(24),产生描绘颗粒(14)的光的散射的散射信号(32),荧光信号(24)和散射信号(32) )被转换为离散值,并且定义报警值,离散值被累积地记录在装备有所选尺寸的至少2维1测量空间中的点上,至少一个索引区域(56,58,60 )从所述测量空间预先选择,从累积在每个预先选择的索引区域(56,58,60)上的命中点的指数频率计算累积索引,显示所选生物材料的存在的报警值, 被罚款从中说 通过使用预选标准进行切片。