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    • 4. 发明申请
    • ELECTRONIC FINE DUST SEPARATOR
    • 电子粉尘分离器
    • US20140352535A1
    • 2014-12-04
    • US14238883
    • 2012-08-13
    • Peter Oertmann
    • Peter Oertmann
    • B03C3/09G03G21/20B03C3/36
    • B03C3/09B03C3/145B03C3/366B03C3/41B03C3/47B03C2201/04G03G21/20
    • A method and to a device for the electrostatic separation of fine dust particles from gases that flow through a housing (1) containing perforated plates (6) and electrodes (4, 5). An electric field is created between the electrode (4) on the inflow opening side and the electrode or electrodes (5) having positive polarity on the outflow side. The removal of negatively charged fine dust particles (9) is carried out by deposition on the inflow side of the perforated plates (6), and the removal of positively charged fine dust particles (11) is carried out on the outflow side. Fine dust particles without charge (10) are charged after the last perforated plate (6) in an ionisation chamber (8) and deposit on the outflow side of the last perforated plate (6).
    • 一种用于将微细灰尘颗粒与流过包含多孔板(6)和电极(4,5)的壳体(1)的气体静电分离的方法和装置。 在流入侧的电极(4)与流出侧的正极性的电极(5)之间产生电场。 通过沉积在多孔板(6)的流入侧进行带负电的细粉尘颗粒(9)的去除,并且在流出侧进行带正电的细粉尘颗粒(11)的去除。 在电离室(8)中的最后一个穿孔板(6)之后,将不带电荷的细灰尘颗粒(10)装入,并沉积在最后的多孔板(6)的流出侧上。
    • 5. 发明申请
    • Vane Electrostatic Precipitator
    • 叶片静电除尘器
    • US20140283686A1
    • 2014-09-25
    • US14250467
    • 2014-04-11
    • John P. Dunn
    • John P. Dunn
    • B03C3/47B03C3/36
    • B03C3/47B03C3/12B03C3/363B03C3/366B03C3/41B03C2201/10
    • Methods using vane electrostatic precipitators collect charged and uncharged particles with vane assemblies that are physically arranged to reduce the air flow rate to at or below 1.0 ft/sec (0.305 m/sec). In preferred embodiments, the main entrained air is divided into smaller proportions by using a plurality of vane assemblies in a vane electrostatic precipitator operating at a specific angle that have discharge electrodes in front of the vanes. This results in both the particles being charged and the flow rate of the air and articles being reduced as they traverse between vanes and over the vane surface. The vane width, operating angle, vane length and vane offset are designed to reduce the air flow rate. As a result, at the ends of the vanes, a high percentage of the air flow is less than 1 ft/s. This allows the particles that are discharged from the vanes during operation to fall by gravity and in the direction of lower air flow, resulting in extremely low re-entrainment and efficient particle collection.
    • 使用叶片式静电除尘器的方法用物理布置的叶片组件收集带电和不带电的颗粒,以将空气流速降低至等于或低于1.0ft / sec(0.305m / sec)。 在优选实施例中,通过使用叶片静电除尘器中的多个叶片组件将主夹带空气分成较小的比例,叶片静电除尘器以特定角度操作,该叶片静电除尘器在叶片前面具有放电电极。 这导致颗粒被充电,并且空气和制品的流速在叶片和叶片表面之间横越时被减小。 叶片宽度,操作角度,叶片长度和叶片偏移被设计为降低空气流速。 结果,在叶片的端部,大部分空气流量小于1ft / s。 这允许在操作期间从叶片排出的颗粒通过重力和较低空气流的方向下降,导致非常低的再夹带和有效的颗粒收集。
    • 6. 发明申请
    • APPARATUS AND METHOD FOR REMOVAL OF PARTICULATE MATTER FROM A GAS
    • 从气体中去除颗粒物的装置和方法
    • US20140020558A1
    • 2014-01-23
    • US13979192
    • 2011-11-16
    • Sridhar Gururaja RaoThomas HammerAmit Kumar Singh Parihar
    • Sridhar Gururaja RaoThomas HammerAmit Kumar Singh Parihar
    • B03C3/011
    • B03C3/011B01D45/12B03C3/15B03C3/366B03C3/41B03C3/49B03C2201/08B03C2201/10B04C9/00B04C2009/001
    • An apparatus and method remove particulate matter from a gas. The apparatus has an inlet for receiving a contaminated gas having particulate matter, and for inducing a swirl to the contaminated gas. A cyclonic separation stage including a first flow-path is provided for separating a portion of the particulate matter from the swirl-induced contaminated gas by centrifugal action, to produce a partially clean gas. An ionization stage including a second flow-path is provided for ionizing the particulate matter remaining in the partially clean gas by producing a corona discharge in the second flow-path. A particle collection stage including a third flow-path is provided for separating the ionized particulate matter from the gas using an electric field across the third flow-path, to produce a clean gas. The ionization stage and the particle collection stage are arranged such that the third flow-path has an increased cross-sectional area relative to the second flow-path.
    • 一种装置和方法从气体中去除颗粒物质。 该装置具有用于接收具有颗粒物质的污染气体的入口,并且用于引起被污染气体的漩涡。 提供包括第一流路的旋风分离段,用于通过离心作用将一部分颗粒物质与涡流引起的污染气体分离,以产生部分清洁的气体。 提供包括第二流路的电离阶段,用于通过在第二流动路径中产生电晕放电来电离残留在部分清洁气体中的颗粒物质。 提供了包括第三流路的颗粒收集阶段,用于使用电场跨越第三流动路径从气体中分离离子化的颗粒物质,以产生清洁的气体。 电离阶段和颗粒收集阶段被布置成使得第三流动路径相对于第二流动路径具有增加的横截面面积。
    • 8. 发明申请
    • ELECTRIC DUST COLLECTOR
    • 电动集尘器
    • US20110209620A1
    • 2011-09-01
    • US13002149
    • 2009-11-11
    • Taksuki NazukaKazuhiro Suginami
    • Taksuki NazukaKazuhiro Suginami
    • B03C3/38B03C3/40
    • B03C3/09B03C3/366B03C3/47B03C2201/04B03C2201/10
    • An object of the present invention is to provide an electric dust collector with its dust collecting performance being improved for collecting dust-like particles contained in a gas, whereas the increase in size thereof is being suppressed. An electric dust collector 10 distributes a gas G that has flown into a distribution chamber 90 to a plurality of charging flow paths 58 in a casing 12 thereof, causes the distributed gas to flow from insides of the charging flow paths 58 into internal flow paths 28 through mesh filters 30 that are formed as parts of the dust collecting electrodes 16 and that have large surface areas per unit volume. Then, the gas G is discharged to a central chamber 33 through internal outlets 32. Subsequently, the flow of the gas G is controlled to be discharged to the outside through a gas outlet 24.
    • 本发明的目的是提供一种电除尘器,其集尘性能得到改善,用于收集包含在气体中的灰尘颗粒,而其尺寸的增加被抑制。 电动集尘器10将已经流入分配室90的气体G分配到其壳体12中的多个充电流路58,使分配的气体从充电流路58的内部流入内部流路28 通过形成为集尘电极16的一部分并且每单位体积具有大的表面积的网状过滤器30。 然后,气体G通过内部出口32排出到中央室33.接着,气体G的流动通过气体出口24被排出到外部。
    • 9. 发明授权
    • Air filtration device for closed environments
    • 用于封闭环境的空气过滤装置
    • US07473304B2
    • 2009-01-06
    • US11806291
    • 2007-05-31
    • Mario Besi
    • Mario Besi
    • B03C3/016
    • B60H3/0078B01D46/50B03C3/08B03C3/366B60H1/00414B60H3/06F24F3/166F24F2003/1682
    • An air filtration device for suppressing biological pollutants for closed environments, including at least one enclosure with at least one air inlet, at which at least one perforated conducting grille is located, that has a present negative electrical potential adapted to emit electrons when air flows, so as to give negative electric charge to particles to which microorganisms adhere, at least one air passage duct being formed between at least one plate having predefined positive potential for collecting negatively charged particles to which microorganisms adhere, at least one deflector plate having a negative potential adapted to divert the particles to which microorganisms adhere, an electrical field being generated between the collector plate and the deflector plate, facing each other, the field to divert and precipitate the particles to which the microorganism adhere onto the collector plate, and an inactivator for inactivation of the microorganisms provided and at least one filtered air outlet.
    • 一种空气过滤装置,用于在封闭环境中抑制生物污染物,包括具有至少一个空气入口的至少一个外壳,至少一个穿孔导电栅格位于该外壳处,当空气流动时,其具有适于发射电子的当前负电位; 为了对微生物附着的颗粒产生负电荷,在具有预定正电位的至少一个板之间形成至少一个空气通道导管,用于收集微生物附着的带负电荷的颗粒,至少一个具有负电位的偏转板 适于转移微生物附着的颗粒,在集电板和导流板之间产生彼此面对的电场,使得微生物粘附到集电板上的颗粒转移和沉淀,以及用于 提供的微生物的灭活和至少一个过滤器 空气出口。
    • 10. 发明申请
    • ACTIVE FIELD POLARIZED MEDIA AIR CLEANER
    • 主动型极化介质空气清洁器
    • US20070199449A1
    • 2007-08-30
    • US11617893
    • 2006-12-29
    • Forwood WiserGeorge SummersBenjamin Kaeppmer
    • Forwood WiserGeorge SummersBenjamin Kaeppmer
    • B01D46/00
    • B01D46/0032B01D46/50B03C3/366B03C2201/28Y10S55/31
    • Improvements in active field polarized media air cleaner include an aerodynamic front cowling to reduce static air resistance, a rear double hinge to reduce blow by, a resistive center screen permitting the sharing of high voltage power supplies while reducing the tendency to arc and allowing for a higher operational voltage, a dielectric media support frame to produce a more uniform electrostatic field and reduce blow by, while at the same time reducing the tendency to spray corona and/or arc at the edges of the center screen, a substantially flat conductive outer screen to produce a more uniform electrostatic field throughout the filter media and a high-voltage shield to reduce high-voltage arcing and the spraying of corona where the high-voltage probe contacts the center screen.
    • 有源场极化介质空气净化器的改进包括一个空气动力学前罩,以减少静电空气阻力,一个后双铰链,以减少吹气,一个电阻中心屏幕,允许共享高压电源,同时减少电弧的倾向,并允许 更高的工作电压,介电介质支撑框架,以产生更均匀的静电场并减少吹气,同时减少在中心屏幕的边缘处喷射电晕和/或电弧的趋势,基本平坦的导电外屏幕 以在整个过滤介质和高压屏蔽层中产生更均匀的静电场,以降低高压电弧和高压探头接触中心屏幕的电晕喷涂。