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    • 1. 发明申请
    • GAS FILTRATION APPARATUS AND METHOD
    • 气体过滤装置和方法
    • WO2017162814A1
    • 2017-09-28
    • PCT/EP2017/056968
    • 2017-03-23
    • KONINKLIJKE PHILIPS N.V.
    • MARRA, JohanRONDA, Cornelis, ReinderDE GRAAF, Pascal
    • F24F3/16F24F11/00
    • A gas filtration apparatus comprising a filter for filtering a gaseous pollutant from a gas to be filtered, the filter comprising filter walls impregnated with an impregnant. The apparatus further comprises a relative humidity sensor for measuring relative humidity; a ventilation system for controllably driving gas through the filter, and a controller configured to control the ventilation system based on relative humidity information obtained by the relative humidity sensor. The controller is configured to control the ventilation system based on the measured relative humidity level and filter relative humidity level information.
    • 气体过滤装置,其包括用于过滤来自待过滤气体的气态污染物的过滤器,所述过滤器包括浸渍有浸渍剂的过滤器壁。 该设备还包括用于测量相对湿度的相对湿度传感器; 用于可控地驱动气体通过过滤器的通风系统,以及配置成基于由相对湿度传感器获得的相对湿度信息来控制通风系统的控制器。 控制器被配置为基于测量的相对湿度水平和过滤器相对湿度水平信息来控制通风系统。
    • 5. 发明申请
    • PARTICLE SENSOR AND SENSING METHOD
    • 颗粒传感器和感测方法
    • WO2016193246A1
    • 2016-12-08
    • PCT/EP2016/062231
    • 2016-05-31
    • KONINKLIJKE PHILIPS N.V.
    • MARRA, Johan
    • G01N15/06G01N15/00
    • G01N15/0656G01N2015/0046
    • A particle sensor comprises an electrostatic particle charging section and a parallel-plate particle precipitation section, and a sensor for detecting the precipitated particles to produce a sensor signal. A pre-filter is placed upstream from the particle charging section. The pre-filter characteristics are such that the sensor signal in response to entrained particles which are not filtered out by the pre-filter relates to the apparent particle number concentration N app of the particles entering the particle sensor by a calibration constant S which is less dependent on the count mean particle diameter d p,av of the particles entering the particle sensor than the dependence on d p,av that exists in the absence of the pre-filter. Thus, the dependency of the sensor signal derived from the particle deposition in the parallel- plate precipitation section on the particle size distribution (caused by incomplete particle deposition in the precipitation section) is at least partly compensated for by a pre-filter which has a suitable dependency of its filtering function on the particle size.
    • 颗粒传感器包括静电颗粒充电部分和平行板颗粒沉淀部分,以及用于检测沉淀的颗粒以产生传感器信号的传感器。 预过滤器被放置在粒子充电部分的上游。 预过滤器特征使得响应于未被预过滤器过滤的夹带颗粒的传感器信号涉及通过校准常数S进入颗粒传感器的颗粒的表观颗粒数浓度N app,其小于 取决于进入颗粒传感器的颗粒的计数平均粒径dp,av与在没有预过滤器时存在的对dp,av的依赖关系。 因此,衍生自平行板沉淀部分中的颗粒沉积的传感器信号对颗粒尺寸分布(由沉淀部分中的不完全颗粒沉积引起)的依赖性至少部分地被预过滤器补偿,该过滤器具有 其过滤功能对粒度的适当依赖性。
    • 10. 发明申请
    • GAS FILTRATION SYSTEM AND METHOD
    • 气体过滤系统和方法
    • WO2017046321A1
    • 2017-03-23
    • PCT/EP2016/071955
    • 2016-09-16
    • KONINKLIJKE PHILIPS N.V.
    • MARRA, Johan
    • B01D53/02B01D53/14B01D53/30B01D53/72
    • B01D53/30B01D53/02B01D53/14B01D53/72B01D2259/4508
    • Presented is a filtration system (10) for removing a target gaseous pollutant from a gas to be filtered in an indoor space, the filtration system (10) comprising: a sensor arrangement (12), which comprises a gas sensor (14) for sensing a concentration of a target gas in the indoor space; an air cleaner (20) which comprises a filter (22) for filtering the target gas from the gas to be filtered, and a ventilation system (24) for controllably driving air through the filter (22), wherein the filter (22) comprises a reversible absorption filter or a reversible adsorption filter; and a controller (26) for controlling ventilation system air flow settings, wherein the controller (26) is adapted, based on current sensor arrangement signals, and a previous history of the sensor arrangement signals, and previous ventilation system air flow settings, to: determine a degree of filter (22) loading with the target gas; determine from the degree of filter (22) loading with the target gas a concentration of the target gas in the air flow exiting the air cleaner (20); and determine when filter (22) regeneration is taking place and when air filtering is taking place from the determined concentration of the target gas in the air flow exiting the air cleaner (20). Further, a method of controlling a filtration system for removing a target gaseous pollutant from a gas to be filtered in an indoor space is presented.
    • 提供了一种用于在室内空间中从要过滤的气体中去除目标气体污染物的过滤系统(10),所述过滤系统(10)包括:传感器装置(12),其包括用于感测的气体传感器(14) 室内空气中的目标气体的浓度; 一种空气净化器(20),其包括用于从待过滤气体中过滤目标气体的过滤器(22)和用于可控地驱动空气通过过滤器(22)的通风系统(24),其中过滤器(22)包括 可逆吸收过滤器或可逆吸附过滤器; 以及用于控制通风系统空气流量设置的控制器(26),其中所述控制器(26)基于当前传感器布置信号以及所述传感器布置信号和先前通风系统空气流量设置的先前历史来适应于: 确定用目标气体加载的过滤器(22)的程度; 根据从目标气体装载过滤器(22)的程度确定离开空气净化器(20)的空气流中的目标气体的浓度; 并且确定何时进行过滤器(22)再生,并且当从离开空气净化器(20)的空气流中确定的目标气体浓度发生空气过滤时。 此外,提出了一种控制用于从室内空气中被过滤的气体中去除目标气体污染物的过滤系统的方法。