会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • METHODS FOR CLEANING WATER FILTRATION MEDIA
    • 清洗水过滤介质的方法
    • WO2012177366A2
    • 2012-12-27
    • PCT/US2012040010
    • 2012-05-30
    • BLUE EARTH LABS LLCO'CONNOR STEPHEN DYU C J
    • O'CONNOR STEPHEN DYU C J
    • B01D35/22B01D24/46B01D29/62B01D33/44B01D35/20
    • C02F1/001C02F1/283C02F2303/16
    • A method of removing contaminants from water filtration media is disclosed, including (a) applying a granular cleaner to the water filtration media, and (b) after step (a), applying multiple discrete doses of an activator to the water filtration media at predetermined time intervals. Further disclosed is a method of cleaning water filtration media, including (a) applying a granular cleaner to the water filtration media that is reactive with at least one first inorganic contaminant; (b) after step (a), applying a liquid cleaner to the water filtration media that is compositionally different from the granular cleaner and reactive with at least one second inorganic contaminant; and (c) after step (b), applying an activator to the water filtration media that is reactive with an organic contaminant. A method of cleaning water filtration media is also disclosed including agitating at least a portion of the water filtration media.
    • 公开了一种从水过滤介质中除去污染物的方法,包括(a)向水过滤介质施加颗粒状清洁剂,和(b)在步骤(a)之后,将多个离散剂量的活化剂施加到水过滤介质上, 时间间隔。 进一步公开了一种清洁水过滤介质的方法,包括(a)将颗粒状清洁剂施加到与至少一种第一无机污染物反应的水过滤介质中; (b)在步骤(a)之后,将液体清洁剂施加到组合物上不同于颗粒清洁剂并与至少一种第二无机污染物反应的水过滤介质; 和(c)步骤(b)之后,将活化剂施加到与有机污染物反应的水过滤介质中。 还公开了一种清洁水过滤介质的方法,包括搅拌至少一部分水过滤介质。
    • 5. 发明申请
    • SYSTEMS AND METHODS FOR MANAGING UTILITY CONSUMPTION
    • 用于管理实用消费的系统和方法
    • WO2010048036A3
    • 2010-07-22
    • PCT/US2009060925
    • 2009-10-15
    • TERRATRIM INCO'CONNOR STEPHEN DGAMBLE RONALD CSUCHTER RICHARD A
    • O'CONNOR STEPHEN DGAMBLE RONALD CSUCHTER RICHARD A
    • G06Q10/00
    • G06Q10/06
    • A system and method for monitoring and managing utility consumption includes use of (A) one or more sensors arranged to monitor an operating condition and/or utility consumption of at least one segment or appliance of a first facility; (B) a memory including at least one of (i) stored utility consumption information correlated or normalized to at least one designated parameter affecting utility consumption or (ii) hypothetical utility consumption; (C) a processor to compare the monitored information with the stored information, and (D) an output medium to store and/or display the comparison information. Stored consumption information may relate to the first facility or a second facility. Hypothetical utility consumption information may relate to a segment or appliance of the first facility operated according to optimized conditions, or an upgraded segment or appliance.
    • 一种用于监测和管理公用事业消耗的系统和方法包括使用(A)布置成监测第一设施的至少一个段或设备的运行状况和/或公用事业消耗的一个或多个传感器; (B)存储器,其包括以下中的至少一个:(i)与影响公用事业消耗的至少一个指定参数相关联或归一化的存储的公用设施消耗信息;(ii)假设的公用事业消费; (C)处理器,用于将所监视的信息与存储的信息进行比较,以及(D)存储和/或显示比较信息的输出介质。 存储的消费信息可能与第一设施或第二设施有关。 假设效用消耗信息可以涉及根据优化条件操作的第一设施的段或设备,或升级的段或设备。
    • 7. 发明申请
    • HIGH THROUGHPUT SYSTEMS AND METHODS FOR PARALLEL SAMPLE ANALYSIS
    • 高通量系统和并行样品分析方法
    • WO2005062340A3
    • 2006-07-06
    • PCT/US2004023980
    • 2004-07-23
    • NANOSTREAM INCHOBBS STEVEN EO'CONNOR STEPHEN DGAMBLE RONALD C
    • HOBBS STEVEN EO'CONNOR STEPHEN DGAMBLE RONALD C
    • H01J49/00B01J19/00B01L3/00G01N30/60G01N30/72H01J49/02H01J49/04
    • G01N30/6043B01L3/5027G01N30/6095G01N30/72H01J49/009H01J49/04
    • Systems and methods for analyzing multiple samples in parallel using mass spectrometry preferably coupled with fluid phase separation techniques are provided. A modular mass spectrometer includes a vacuum enclosure, multiple sample inlets, multiple common vacuum pumping elements, and multiple mass analysis modules disposed substantially within the enclosure, with each module preferably including a mass analyzer and a transducer. In one embodiment, the modules mate with the vacuum enclosure to define multiple sequential vacuum regions, with each vacuum region having an associated common vacuum pumping element. At least one multi-pole ion transfer optic element is preferably associated with each module. Fluid phase separation devices for use with a multi-analyzer spectrometer may include microfluidic devices utilizing chromatographic, electrophoretic, or other separation methods to process raw samples into prepared samples to be ionized and injected into a multi-channel mass spectrometer.
    • 提供了使用优选与流体相分离技术结合的质谱分析多个样品并行的系统和方法。 模块化质谱仪包括真空外壳,多个样品入口,多个共同的真空抽吸元件和基本上设置在外壳内的多个质量分析模块,每个模块优选地包括质量分析器和换能器。 在一个实施例中,模块与真空外壳配合以限定多个连续的真空区域,每个真空区域具有相关联的共同真空泵送元件。 至少一个多极离子转移光学元件优选地与每个模块相关联。 用于多分析仪光谱仪的流体相分离装置可以包括利用色谱,电泳或其它分离方法的微流体装置,以将原始样品处理成待离子化并注入多通道质谱仪的制备样品。