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    • 3. 发明公开
    • SYSTEM AND METHOD OF UNDERGROUND WATER DETECTION
    • SYSTEM UND VERFAHREN ZUR GRUNDWASSERDETEKTION
    • EP3180641A4
    • 2017-08-23
    • EP16767871
    • 2016-03-22
    • UTILIS ISRAEL LTD
    • GUY LAURENNEVO ERAN
    • G01S13/90G01S7/02G01S7/41G01S17/02G01V9/02G06K9/00
    • G01S13/885G01S7/025G01S7/411G01S13/867G01S13/90G01S2013/9076G01V3/12G01V8/005G01V9/02G01V11/00Y02A90/32Y02A90/344Y02A90/36
    • Embodiments of the invention are directed to a method of determining underground liquid (e.g., water) content. Embodiments of the method may include: receiving a scan of an area at a first polarization, the scan scans including first L band microwave reflections from the area. Embodiments of the invention may include receiving an optical data at a wavelength of 1 millimeter to 10 nanometers. Embodiments of the method may further include filtering electromagnetic noise from the scan using the optical data. Embodiments of the method may further include creating a water roughness map based on typical roughness values of various types of water sources and the filtered scan, identifying a first type of water sources using the water roughness map and the filtered scan and calculating the water content at locations in the area based on the identified first type of water sources.
    • 本发明的实施例涉及确定地下液体(例如水)含量的方法。 该方法的实施例可以包括:以第一偏振接收区域的扫描,该扫描扫描包括来自该区域的第一L波段微波反射。 本发明的实施例可以包括接收1毫米至10纳米波长的光学数据。 该方法的实施例可以进一步包括使用光学数据从扫描中滤除电磁噪声。 该方法的实施例可以进一步包括基于各种类型的水源的典型粗糙度值和经过滤的扫描来创建水粗糙度图,使用水粗糙度图和过滤的扫描来识别第一类型的水源,并且计算在 基于所识别的第一类水源的区域中的位置。
    • 4. 发明公开
    • SYSTEM AND METHOD OF UNDERGROUND WATER DETECTION
    • 地下水检测系统和方法
    • EP3180641A2
    • 2017-06-21
    • EP16767871.3
    • 2016-03-22
    • Utilis Israel Ltd
    • GUY, LaurenNEVO, Eran
    • G01V9/02G01S17/02G06K9/00
    • G01S13/885G01S7/025G01S7/411G01S13/867G01S13/90G01S2013/9076G01V3/12G01V8/005G01V9/02G01V11/00Y02A90/32Y02A90/344Y02A90/36
    • Embodiments of the invention are directed to a method of determining underground liquid (e.g., water) content. Embodiments of the method may include: receiving a scan of an area at a first polarization, the scan scans including first L band microwave reflections from the area. Embodiments of the invention may include receiving an optical data at a wavelength of 1 millimeter to 10 nanometers. Embodiments of the method may further include filtering electromagnetic noise from the scan using the optical data. Embodiments of the method may further include creating a water roughness map based on typical roughness values of various types of water sources and the filtered scan, identifying a first type of water sources using the water roughness map and the filtered scan and calculating the water content at locations in the area based on the identified first type of water sources.
    • 本发明的实施例涉及确定地下液体(例如水)含量的方法。 该方法的实施例可以包括:以第一偏振接收区域的扫描,该扫描扫描包括来自该区域的第一L波段微波反射。 本发明的实施例可以包括接收1毫米至10纳米波长的光学数据。 该方法的实施例可以进一步包括使用光学数据从扫描中滤除电磁噪声。 该方法的实施例可以进一步包括基于各种类型的水源的典型粗糙度值和经过滤的扫描来创建水粗糙度图,使用水粗糙度图和过滤的扫描来识别第一类型的水源,并且计算在 基于所识别的第一类水源的区域中的位置。
    • 10. 发明公开
    • FLOW METER
    • STRÖMUNGSMESSER
    • EP2062011A4
    • 2017-07-19
    • EP07803742
    • 2007-09-11
    • POSIVA OY
    • ROUHIAINEN PEKKAPÖLLÄNEN JARIHEIKKINEN PETRI
    • G01F1/00E21B33/124E21B47/00G01V9/02G01V11/00
    • G01V11/002E21B47/10G01V9/02Y02A90/342
    • A flow meter to be used in a hole drilled in the bedrock for measuring stream flows in bedrock fractures which are transversal to the hole. The flow meter comprises an elongated body having a cross section which is substantially smaller than the diameter of the hole; separating members placed at a distance from each other in the longitudinal direction of the body for separating the examined section from the other parts of the hole in a substantially pressure-tight manner; dividing members for dividing the examined section into two sectors in the longitudinal direction of the hole; and a flow channel extending through the body and equipped with a flow sensor for measuring the direction and rate of the flow between the sectors. In accordance with the invention, the dividing members are formed of thin and elastic sealing strips, which have been fixed to the body and, being substantially perpendicular to the surface of the body, arranged to surround and delimit the sectors.
    • 用于测量基岩中的钻孔中的流量计用于横穿孔的基岩裂缝中的流动。 流量计包括具有基本上小于孔直径的横截面的细长体; 分离构件,所述分离构件在主体的纵向方向上彼此间隔开地设置,用于以基本上压力密封的方式将被检部分与孔的其他部分分开; 用于将被检部分沿孔的纵向分成两部分的分隔部件; 以及延伸穿过主体并且配备有用于测量扇区之间的流动的方向和速率的流量传感器的流动通道。 根据本发明,分隔构件由薄且弹性的密封条形成,所述密封条已经固定到主体并且基本上垂直于主体的表面布置成围绕和限定扇区。