-
公开(公告)号:CN108426842A
公开(公告)日:2018-08-21
申请号:CN201710078009.8
申请日:2017-02-14
Applicant: 江苏康正生物科技有限公司
CPC classification number: Y02E10/566 , G01N21/25 , G01N2201/0212 , H02J7/35
Abstract: 本发明公开了一种基于太阳能电池板供电的水质监测装置,包括能够浮在水面上的载体,所述载体上固定有舱室,所述舱室内具有检测单元、液体泵、控制器、蓄电池、充放电电路,所述舱室上方固定有第一立柱,所述第一立柱顶端固定有透明的盒部,所述盒部内具有太阳能电池板;所述载体底部固定有管状的第二立柱,所述第二立柱内具有取水管路,所述液体泵用于通过取水管路泵送待检测水至所述检测单元,所述第二立柱的底端固定有配重块。本发明的监测装置利用太阳能供电,能实现长时间监测。
-
公开(公告)号:CN103403532A
公开(公告)日:2013-11-20
申请号:CN201180068173.1
申请日:2011-12-22
Applicant: 艾克斯波特西溶液公司
CPC classification number: G01N21/51 , A01K61/00 , A01K61/59 , A01K61/80 , A01K61/90 , A22C29/005 , G01J1/42 , G01N21/55 , G01N33/18 , G01N2201/0212 , G01N2201/0627 , G01N2201/065 , G06M1/101 , G06M11/00 , Y02A40/81 , Y02A40/824
Abstract: 光耦合数据采集系统,其可具有:容器,所述容器具有从封闭底部向上延伸的轮廓壁,所述容器用于将样本容纳在其中;光发射器,其可操作以使漫射光以初始强度射入容器内;光检测器,其可操作以检测所述漫射光的反射强度;以及连接至所述轮廓壁的结构体,该结构体使所述光发射器和所述光检测器保持在所述容器底部上方的预定高度处,并处于面向所述容器内的方位;其中,在所述系统操作时,所述初始光强度经由样本以可使反射强度与关于所述样本的兴趣变量的信息值相关联的方式进行衰减。
-
公开(公告)号:CN103403532B
公开(公告)日:2016-05-18
申请号:CN201180068173.1
申请日:2011-12-22
Applicant: 艾克斯波特西溶液公司
CPC classification number: G01N21/51 , A01K61/00 , A01K61/59 , A01K61/80 , A01K61/90 , A22C29/005 , G01J1/42 , G01N21/55 , G01N33/18 , G01N2201/0212 , G01N2201/0627 , G01N2201/065 , G06M1/101 , G06M11/00 , Y02A40/81 , Y02A40/824
Abstract: 光耦合数据采集系统,其可具有:容器,所述容器具有从封闭底部向上延伸的轮廓壁,所述容器用于将样本容纳在其中;光发射器,其可操作以使漫射光以初始强度射入容器内;光检测器,其可操作以检测所述漫射光的反射强度;以及连接至所述轮廓壁的结构体,该结构体使所述光发射器和所述光检测器保持在所述容器底部上方的预定高度处,并处于面向所述容器内的方位;其中,在所述系统操作时,所述初始光强度经由样本以可使反射强度与关于所述样本的兴趣变量的信息值相关联的方式进行衰减。
-
公开(公告)号:CN105593665A
公开(公告)日:2016-05-18
申请号:CN201480052427.4
申请日:2014-10-03
Applicant: 梅西大学
CPC classification number: G01N21/51 , G01N21/49 , G01N21/5907 , G01N2201/0212 , G01N2201/0227
Abstract: 本发明涉及光学测量装置和系统以及使用这些系统和装置的方法,且更具体地但不排他地,本发明涉及一种适应于原位测量光学性质的系统和设备。
-
公开(公告)号:CN102597743A
公开(公告)日:2012-07-18
申请号:CN201080050512.9
申请日:2010-08-27
Applicant: 哈希公司
CPC classification number: G01N21/15 , G01N21/05 , G01N21/11 , G01N21/51 , G01N21/534 , G01N21/8507 , G01N33/1886 , G01N2001/205 , G01N2021/0143 , G01N2201/0212 , G01N2201/0218
Abstract: 本发明公开一种防污潜水式液体传感器(100)。防污潜水式液体传感器(100)包括:测量腔(102),包括一个或多个液体测量传感器(121)和至少一个腔孔(104);至少一个门(107);门致动器(128),被配置为关于所述至少一个腔孔(104)在打开位置和关闭位置之间选择性地移动所述至少一个门(107);和辐射源(124),被配置为使测量腔(102)中的至少部分液体样品失活。防污潜水式液体传感器(100)被配置为:允许液体样品进入测量腔(102);在液体样品上执行一次或多次测量;使用来自辐射源(124)的辐射使液体样品内的生物材料基本上失活;和保持被失活的液体样品直到下一个采样时间。
-
Patent Agency Ranking
公开(公告)号:US08412469B1
公开(公告)日:2013-04-02
申请号:US12698996
申请日:2010-02-02
Applicant: Brad Bebout , Erich Fleming , Matthew Piccini , Christopher Beasley , Leslie Bebout
Inventor: Brad Bebout , Erich Fleming , Matthew Piccini , Christopher Beasley , Leslie Bebout
IPC: G01B3/00
CPC classification number: A01G33/00 , G01N21/6486 , G01N2201/0212 , G01N2201/0218 , Y02A40/88 , Y02P60/247
Abstract: Mobile system and method for monitoring environmental parameters involved in growth or metabolic transformation of algae in a liquid. Each of one or more mobile apparati, suspended or partly or wholly submerged in the liquid, includes at least first and second environmental sensors that sense and transmit distinct first and second environmental, growth or transformation parameter values, such as liquid temperature, temperature of gas adjacent to and above the exposed surface, liquid pH, liquid salinity, liquid turbidity, O2 dissolved in the liquid, CO2 contained in the liquid, oxidization and reduction potential of the liquid, nutrient concentrations in the liquid, nitrate concentration in the liquid, ammonium concentration in the liquid, bicarbonate concentration in the liquid, phosphate concentration in the liquid, light intensity at the liquid surface, electrical conductivity of the liquid, and a parameter α(alga) associated with growth stage of the alga, using PAM fluorometry or other suitable parameter measurements.
Abstract translation: 用于监测涉及液体中藻类生长或代谢转化的环境参数的移动系统和方法。 悬浮或部分或完全浸没在液体中的一个或多个移动装置中的每一个包括至少第一和第二环境传感器,其感测和传输不同的第一和第二环境,生长或变换参数值,例如液体温度,气体温度 液体pH,液体盐度,液体浊度,溶于液体中的O2,液体中含有的CO2,液体的氧化还原电位,液体中的营养物浓度,液体中的硝酸盐浓度,铵 液体中的浓度,液体中的碳酸氢盐浓度,液体中的磷酸盐浓度,液体表面的光强度,液体的导电性和与藻类的生长阶段相关的参数α(藻类),使用PAM荧光测定法或其他 适当的参数测量。
-
公开(公告)号:US4986655A
公开(公告)日:1991-01-22
申请号:US443620
申请日:1989-11-30
Applicant: Harold E. Sweeney , Paul J. Titterton , Donald A. Leonard
Inventor: Harold E. Sweeney , Paul J. Titterton , Donald A. Leonard
CPC classification number: G01N21/49 , G01J3/44 , G01J2003/1252 , G01N2021/638 , G01N21/65 , G01N2201/0212 , G01N2201/0214 , G01N2201/0697
Abstract: Apparatus is disclosed for remotely measuring the diffuse attenuation coefficient K of ocean water from a platform such as an aircraft flying over the ocean. A pulsed laser beam is directed as a probe beam from the aircraft into the water to produce therein Brillouin backscattering signals which emanate back up through the water to the aircraft. An optical receiver in the aircraft receives and processes those backscattered signals. A very narrow optical bandpass filter passes the Brillouin signals to a photodetector, a digitizer and a data processor, the latter being programmed to compute the diffuse attenuation coefficient at predetermined depths and at the Brillouin wavelength. Measurements of the diffuse attenuation coefficient at various depths is accomplished by sampling and digitizing the Brillouin signals at predetermined intervals, each interval corresponding to a depth beneath the surface of the water. A preferred embodiment of the invention features similar apparatus having two signal-processing channels for simultaneously deriving the diffuse attenuation coefficient at two wavelengths by analyzing the upwelling Brillouin (blue) and Raman (green) backscatter generated by the probe beam. An alternate embodiment of the invention features apparatus for measuring the diffuse attenuation coefficient K of ocean water from a submerged submarine.
Abstract translation: 公开了用于从诸如飞越海洋的飞机的平台远程测量海洋的漫射衰减系数K的装置。 脉冲激光束作为探测光束从飞行器引导到水中以产生其中布里渊后向散射信号,其通过水返回飞行器。 飞机中的光接收器接收并处理这些反向散射信号。 非常狭窄的光学带通滤波器将布里渊信号传递到光电检测器,数字转换器和数据处理器,后者被编程为计算预定深度和布里渊波长处的漫射衰减系数。 通过以预定的间隔采样和数字化布里渊信号来实现各种深度处的漫反射衰减系数的测量,每个间隔对应于水表面下方的深度。 本发明的优选实施例具有类似的装置,其具有两个信号处理通道,用于通过分析由探测光束产生的上升流布里渊(蓝色)和拉曼(绿色)反向散射,来同时导出两个波长处的漫反射衰减系数。 本发明的替代实施例的特征在于用于测量来自潜水艇的海洋的漫射衰减系数K的装置。
-
公开(公告)号:US09772288B1
公开(公告)日:2017-09-26
申请号:US15386117
申请日:2016-12-21
Applicant: SPAWAR Systems Center Pacific
Inventor: David Lapota , Gregory W. Anderson
IPC: G01N21/64
CPC classification number: G01N21/6486 , G01N21/645 , G01N2201/0212 , G01N2201/0221 , G01N2201/062 , G01N2201/069
Abstract: An autonomous biobuoy system and methods for detecting characteristics of a marine environment, the system involving: a light source comprising a blue light emitting diode; a detector assembly for detecting the at least one characteristic of the marine environment, the detector assembly having a single photodiode configured to detect stimulated bioluminescence and transmissivity in response to the light source, the detector assembly configured to generate at least one detector assembly output signal responsive to at least one detected characteristic; and a transmitter coupled with the detector assembly for transmitting the at least one detector assembly output signal.
-
公开(公告)号:US20170082593A1
公开(公告)日:2017-03-23
申请号:US15214608
申请日:2016-07-20
Applicant: Timothy J. Nedwed , Changyong Zhang , David A. Palandro
Inventor: Timothy J. Nedwed , Changyong Zhang , David A. Palandro
CPC classification number: G01N33/2823 , G01N21/31 , G01N21/59 , G01N21/94 , G01N29/032 , G01N2021/0118 , G01N2201/0212 , G01N2201/0214 , G01N2201/0218 , G01N2201/0693 , G01N2201/0696 , G01N2291/0226 , G01N2291/048 , G01N2291/102 , G01V8/02
Abstract: Methods and systems for detecting oil proximate to a body of ice is disclosed herein. An example system includes an energy emitter disposed proximate to a first surface of a body of ice. An energy detector is disposed proximate to a second surface of the body of ice. The energy detector is used to map a distribution of oil proximate to the body of ice based, at least in part, on differences in energy transmitted through the body of ice.
-
公开(公告)号:EP3176565A1
公开(公告)日:2017-06-07
申请号:EP15382609.4
申请日:2015-12-04
Inventor: GORRITXATEGI ARRONDO, Eneko , MABE ÁLVAREZ, Jon , DELGADO CASTRILLO, Andoni , VILLAR VERGUIZAS, Alberto , URRETA PRIETO, Harkaitz
IPC: G01N21/3577 , G01N21/359 , G01N21/85
CPC classification number: G01N21/3563 , G01N21/01 , G01N21/3577 , G01N21/359 , G01N21/8507 , G01N33/143 , G01N33/146 , G01N2201/0212 , G01N2201/0218 , G01N2201/0231
Abstract: A system (300) for monitoring at least one parameter of a fluid contained in a container (30), which comprises: a measuring device (10) based on near-infrared spectroscopy designed to be submerged in the cited fluid to be monitored and to take measurements of said fluid, wherein said measuring device (10) comprises a measuring area (13, M, M'). The monitoring system (300) comprises a flotation system (32) joined to said measuring device (10), said flotation system (32) being arranged, during the use of the monitoring system (300), floating on the fluid to be monitored such that the measuring area (13, M, M') of the measuring device (10) is submerged in the fluid at a constant depth (D, D') with respect to the level of fluid (N) in the container (30), such that all the measurements taken by the measuring device (10) are taken at the same depth with respect to the level of the fluid (N).
Abstract translation: 1。一种用于监测容纳在容器(30)中的流体的至少一个参数的系统(300),所述系统(300)包括:基于近红外光谱的测量装置(10),所述测量装置设计成浸没在所述待监测流体中并且 测量所述流体,其中所述测量装置(10)包括测量区域(13,M,M')。 监测系统(300)包括连接到所述测量装置(10)的浮选系统(32),所述浮选系统(32)在使用监测系统(300)期间被布置为漂浮在待监测的流体上 测量装置(10)的测量区域(13,M,M')相对于容器(30)中的流体水平(N)以恒定深度(D,D')浸没在流体中, ,使得测量装置(10)所进行的所有测量都取决于相对于流体(N)的水平的相同深度。
-
-
-
-
-
-
-
-
-
Search Results
41
records
(took 0.026 seconds)
