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    • 1. 发明授权
    • Nozzle damper assembly
    • 喷嘴阻尼器组件
    • US5234021A
    • 1993-08-10
    • US825347
    • 1992-01-24
    • Martin J. KozlakDavid K. Anderson
    • Martin J. KozlakDavid K. Anderson
    • G01F1/40
    • G01F1/40Y10T137/776Y10T137/7789
    • A nozzle damper assembly (10) for installation in a duct (12) operative for measuring and controlling the flow of a gaseous medium through the duct (12). The subject nozzle damper assembly (10) includes enclosure means (24) cooperatively associated with the duct (12), shaft means (26) suitably supported from the sidewalls (32, 34, 36, 38) of the enclosure means (24), damper blade means (16,18) rotatable mounted on the shaft means (26) for movement within the enclosure means (24), damper blade operating means (28) operative for purposes of effecting the movement of the damper blade means (16,18) within the enclosure means (24), and flow measurement means (20,22) supported at a first location and at a second location relative to in lieu thereof the damper blade means (16,18) and operative to measure the flow of the gaseous medium through the nozzle damper assembly (10) such that control may be exercised over the flow of the gaseous medium through the duct (12) based on such measurements.
    • 一种用于安装在管道(12)中的喷嘴阻尼器组件(10),其用于测量和控制通过管道(12)的气态介质的流动。 主体喷嘴阻尼器组件(10)包括与管道(12)协作地关联的封闭装置(24),从外壳装置(24)的侧壁(32,34,36,38)适当地支撑的轴装置(26) 减震器叶片装置(16,18),可旋转地安装在所述轴装置(26)上,用于在所述外壳装置(24)内移动;阻尼器叶片操作装置(28),用于实现所述阻尼叶片装置 )和在第一位置处和第二位置处相对于其相对于阻尼叶片装置(16,18)支撑的流量测量装置(20,22),并且可操作地测量流体的流量 气体介质通过喷嘴阻尼器组件(10),使得可以基于这样的测量通过管道(12)对气态介质的流动进行控制。
    • 2. 发明授权
    • Integrated mercury control system
    • 集成汞控制系统
    • US08110029B2
    • 2012-02-07
    • US12437939
    • 2009-05-08
    • David J. MattesonJames P. SuttonRebecca L. TobiaszMartin J. Kozlak
    • David J. MattesonJames P. SuttonRebecca L. TobiaszMartin J. Kozlak
    • B01D53/64B01D53/75F23J15/02
    • B01D53/34B01D53/64B01D53/75B01D53/79B01D2257/302B01D2259/128F23J15/006F23J2215/20F23J2217/101F23J2219/40G05B13/021
    • An integrated system [1000] is described for reducing operating costs of power plants while keeping gaseous pollutants in exhaust flue gasses, such as Mercury (Hg), below acceptable limits. Controller [1800] monitors and controls operation of a scrubber [1300], activator injection system [1400], sorbent injection system [1500] and a filter [1600]. Scrubber [1300] provides a neutralizer to remove SO2 emissions. Activator injection system [1400] provides and activator that increases affinity of the pollutant gasses for a sorbent. Sorbent injection system [1500] employs novel low friction injection lances [1590] that evenly distribute the sorbent particles. A filter [1600] collects the sorbent particles that cake onto filter bags [1620] that are periodically cleaned. A controller [1800] receives the costs of materials consumed and the filter bag life for the plant and performs an optimization of the multiple variables to minimize costs while keeping the pollutant emissions below a prescribed limit.
    • 描述了一种综合系统[1000],用于降低发电厂的运行成本,同时将排放烟气(如汞(Hg))中的气态污染物保持在可接受的极限以下。 控制器[1800]监测和控制洗涤器[1100],活化剂注射系统[1400],吸附剂注射系统[1500]和过滤器[1600]的操作。 洗涤器[1300]提供了一种去除二氧化硫排放的中和剂。 活化剂注射系统[1400]提供和激活剂,增加污染物气体对吸附剂的亲和力。 吸附剂注射系统[1500]采用新颖的低摩擦注射枪[1590],均匀分布吸附剂颗粒。 过滤器[1600]收集被周期性清洁的过滤袋上的吸附剂颗粒[1620]。 控制器[1800]接收耗材的成本和工厂的过滤袋寿命,并对多个变量进行优化,以最大限度地降低成本,同时将污染物排放量降低到规定的限度以下。
    • 3. 发明申请
    • INTEGRATED MERCURY CONTROL SYSTEM
    • 一体化汞控制系统
    • US20100282140A1
    • 2010-11-11
    • US12437939
    • 2009-05-08
    • David J. MattesonJames P. SuttonRebecca L. TobiaszMartin J. Kozlak
    • David J. MattesonJames P. SuttonRebecca L. TobiaszMartin J. Kozlak
    • F23J15/02B05B1/00B05B12/00
    • B01D53/34B01D53/64B01D53/75B01D53/79B01D2257/302B01D2259/128F23J15/006F23J2215/20F23J2217/101F23J2219/40G05B13/021
    • An integrated system [1000] is described for reducing operating costs of power plants while keeping gaseous pollutants in exhaust flue gasses, such as Mercury (Hg), below acceptable limits. Controller [1800] monitors and controls operation of a scrubber [1300], activator injection system [1400], sorbent injection system [1500] and a filter [1600]. Scrubber [1300] provides a neutralizer to remove SO2 emissions. Activator injection system [1400] provides and activator that increases affinity of the pollutant gasses for a sorbent. Sorbent injection system [1500] employs novel low friction injection lances [1590] that evenly distribute the sorbent particles. A filter [1600] collects the sorbent particles that cake onto filter bags [1620] that are periodically cleaned. A controller [1800] receives the costs of materials consumed and the filter bag life for the plant and performs an optimization of the multiple variables to minimize costs while keeping the pollutant emissions below a prescribed limit.
    • 描述了一种综合系统[1000],用于降低发电厂的运行成本,同时将排放烟气(如汞(Hg))中的气态污染物保持在可接受的极限以下。 控制器[1800]监测和控制洗涤器[1100],活化剂注射系统[1400],吸附剂注射系统[1500]和过滤器[1600]的操作。 洗涤器[1300]提供了一种去除二氧化硫排放的中和剂。 活化剂注射系统[1400]提供和激活剂,增加污染物气体对吸附剂的亲和力。 吸附剂注射系统[1500]采用新颖的低摩擦注射枪[1590],均匀分布吸附剂颗粒。 过滤器[1600]收集被周期性清洁的过滤袋上的吸附剂颗粒[1620]。 控制器[1800]接收耗材的成本和工厂的过滤袋寿命,并对多个变量进行优化,以最大限度地降低成本,同时保持污染物排放低于规定的限度。
    • 8. 发明授权
    • Microwave detection of fuel flow
    • 微波检测燃油流量
    • US4628830A
    • 1986-12-16
    • US826948
    • 1986-02-07
    • Martin J. Kozlak
    • Martin J. Kozlak
    • F23K3/02G01F1/66G01F1/74
    • F23K3/02G01F1/66G01F1/74
    • A microwave transmitter irradiates each outlet pipe flow path of a coal pulverizer with a beam of electromagnetic energy at a microwave frequency. The microwave energy absorbed in each outlet pipe flow path is monitored and is proportional to the pulverized fuel flow therethrough. Knowing the fuel flow rate into the pulverizer, the fuel flow rate through each outlet pipe flow path may be determined. The portion of pulverized fuel flow exiting the pulverizer through a given pipe is determined as the ratio of microwave energy absorbed in each outlet pipe flow path to the average microwave energy absorbed in all outlet pipe flow paths of the pulverizer, multiplied by the fuel flow rate into the pulverizer divided by the number of outlet pipe flow paths.
    • 微波发射器以微波频率照射具有电磁能束的煤粉碎机的每个出口管路径。 监测每个出口管流路中吸收的微波能量,并与其中的粉煤燃料流量成比例。 了解进入粉碎机的燃料流量,可以确定通过每个出口管流路的燃料流量。 被确定为从每个出口管流动通道吸收的微波能量与在粉碎机的所有出口管路径中吸收的平均微波能量乘以燃料流量的比例 进入粉碎机除以出口管道流路数。