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1. 发明申请

US20190107598A1 DUAL AXIS TRACKING METHOD 审中-公开
公开(公告)号：US20190107598A1
公开(公告)日：2019-04-11
申请号：US16196251
申请日：2018-11-20
申请人： WTS LLC
发明人： Brian Plourde , John Abraham , Douglas Plourde , Richard Pakonen , Andy Gikling
IPC分类号： G01S3/786 , F24S20/20 , F24S50/20 , F24S30/45 , G01S19/01 , F24S50/40 , F24S23/74 , G05D23/185 , F16K24/04 , G05D3/10
摘要： The disclosure relates to a tracking device configured to track an object in space, such as the sun, as the object moves across the sky. The tracking device may further be configured to direct a payload toward the object or toward an angle relative to the object. The tracking device may continuously or intermittently determine the location of the moving object, and adjust the position of the payload accordingly. The tracking device may calculate the position of the moving object based on GPS information, such as triangulated coordinates of the tracking device, date, and time. Generally, the tracking device may be capable of tracking an object such as the sun from anywhere on the earth's surface. The tracking device may employ one or more actuation assemblies to position the payload toward or relative to the moving object. The one or more actuation assemblies may operate through linear motion.

2. 发明申请

US20160153920A1 METHOD OF CALCULATING PATHOGEN INACTIVATION FOR A FLUID HEATING SYSTEM 审中-公开
标题翻译：计算流体加热系统病态灭活的方法
公开(公告)号：US20160153920A1
公开(公告)日：2016-06-02
申请号：US14954383
申请日：2015-11-30
申请人： WTS LLC
发明人： Brian Plourde , John Abraham , Douglas Plourde , Richard Pakonen
IPC分类号： G01N25/00 , G01N33/18
CPC分类号： G01N25/00 , F24S23/74 , F24S30/428 , F24S50/40 , G01N33/1826 , Y02E10/45 , Y02E10/47
摘要： A method of determining pathogen inactivation may include performing an energy balance on a fluid heating system. Performing an energy balance may include calculating temperatures of a fluid at a plurality of locations as the fluid flows through the fluid heating system. The method of determining pathogen inactivation may also include receiving inactivation kinetic data regarding a pathogen present in the fluid and determining pathogen inactivation amounts based on exposure to the temperatures. Performing an energy balance may include receiving a plurality of input parameters relating to the fluid heating system. The plurality of input parameters may relate to a solar collection system and an associated fluid control system. The solar collection system may include a parabolic mirror and the fluid control system may include an elongated flow element arranged along a focal axis of the parabolic mirror.
摘要翻译：确定病原体灭活的方法可以包括在流体加热系统上执行能量平衡。执行能量平衡可以包括当流体流过流体加热系统时在多个位置计算流体的温度。确定病原体失活的方法还可以包括接收关于存在于流体中的病原体的失活动力学数据，并且基于暴露于温度确定病原体灭活量。执行能量平衡可以包括接收与流体加热系统相关的多个输入参数。多个输入参数可以涉及太阳能收集系统和相关联的流体控制系统。太阳能收集系统可以包括抛物面镜，并且流体控制系统可以包括沿着抛物面镜的焦点轴线布置的细长流动元件。

3. 发明授权

US11946886B2 Fluid heating system 有权
公开(公告)号：US11946886B2
公开(公告)日：2024-04-02
申请号：US14954292
申请日：2015-11-30
申请人： WTS LLC
发明人： Brian Plourde , John Abraham , Douglas Plourde , Richard Pakonen , Andy Gikling , Noel Naughton
IPC分类号： F24S23/74 , F24S30/428 , F24S50/40 , G01N25/00 , G01N33/18
CPC分类号： G01N25/00 , F24S23/74 , F24S30/428 , F24S50/40 , G01N33/1826 , Y02E10/40 , Y02E10/47
摘要： A fluid heating system may include a solar collection system configured for focusing sunlight on a focal axis, an elongated flow element arranged and configured for transporting fluid along the solar collection system at the focal axis, and a flow-control assembly comprising thermostatic valves configured to control the flow of the fluid in the elongated flow element such that pathogens present in the fluid are substantially inactivated before the fluid exits the fluid heating system. A method of operating a fluid heating system wherein the fluid heating system comprises a parabolic solar collector and a support structure may also be provided.

4. 发明申请

US20220003428A1 DIGITAL FLUID HEATING SYSTEM 有权
公开(公告)号：US20220003428A1
公开(公告)日：2022-01-06
申请号：US17301246
申请日：2021-03-30
申请人： WTS LLC
发明人： Brian Plourde , Andrew Gikling , John Abraham , Richard Pakonen , Douglas Plourde
IPC分类号： F24D17/00 , F24S20/20 , F24S30/452 , C02F1/14 , F24S23/74 , F24S50/20 , F24S50/40 , F24D3/08
摘要： A digital fluid heating system may include a solar collection system configured for focusing sunlight on a focal axis, an elongated flow element arranged and configured for transporting fluid along the solar collection system at the focal axis, and a flow-control assembly comprising a digitally controlled valve configured to control the flow of the fluid in the elongated flow element such that pathogens present in the fluid are substantially inactivated before the fluid exits the fluid heating system and at a maximized flow rate under the given energy providing conditions. The system may also include one or more digital controls and communication systems for remote and/or automatic control.

5. 发明授权

US10989420B2 Digital fluid heating system 有权
公开(公告)号：US10989420B2
公开(公告)日：2021-04-27
申请号：US15818052
申请日：2017-11-20
申请人： WTS LLC
发明人： Brian Plourde , Andrew Gikling , John Abraham , Richard Pakonen , Douglas Plourde
IPC分类号： F24D17/00 , F24S20/20 , F24S30/452 , C02F1/14 , F24S23/74 , F24S50/20 , F24S50/40 , F24D3/08 , F24S80/30 , F24S30/428
摘要： A digital fluid heating system may include a solar collection system configured for focusing sunlight on a focal axis, an elongated flow element arranged and configured for transporting fluid along the solar collection system at the focal axis, and a flow-control assembly comprising a digitally controlled valve configured to control the flow of the fluid in the elongated flow element such that pathogens present in the fluid are substantially inactivated before the fluid exits the fluid heating system and at a maximized flow rate under the given energy providing conditions. The system may also include one or more digital controls and communication systems for remote and/or automatic control.

6. 发明授权

US11255804B2 Method of calculating pathogen inactivation for a fluid heating system 有权
公开(公告)号：US11255804B2
公开(公告)日：2022-02-22
申请号：US14954383
申请日：2015-11-30
申请人： WTS LLC
发明人： Brian Plourde , John Abraham , Douglas Plourde , Richard Pakonen
IPC分类号： G01N25/00 , F24S50/40 , F24S23/74 , F24S30/428 , G01N33/18
摘要： A method of determining pathogen inactivation may include performing an energy balance on a fluid heating system. Performing an energy balance may include calculating temperatures of a fluid at a plurality of locations as the fluid flows through the fluid heating system. The method of determining pathogen inactivation may also include receiving inactivation kinetic data regarding a pathogen present in the fluid and determining pathogen inactivation amounts based on exposure to the temperatures. Performing an energy balance may include receiving a plurality of input parameters relating to the fluid heating system. The plurality of input parameters may relate to a solar collection system and an associated fluid control system. The solar collection system may include a parabolic mirror and the fluid control system may include an elongated flow element arranged along a focal axis of the parabolic mirror.

7. 发明授权

US11092558B2 Method of calculating pathogen inactivation for a fluid heating system 有权
公开(公告)号：US11092558B2
公开(公告)日：2021-08-17
申请号：US14954383
申请日：2015-11-30
申请人： WTS LLC
发明人： Brian Plourde , John Abraham , Douglas Plourde , Richard Pakonen
IPC分类号： G01N25/00 , F24S50/40 , F24S23/74 , F24S30/428 , G01N33/18
摘要： A method of determining pathogen inactivation may include performing an energy balance on a fluid heating system. Performing an energy balance may include calculating temperatures of a fluid at a plurality of locations as the fluid flows through the fluid heating system. The method of determining pathogen inactivation may also include receiving inactivation kinetic data regarding a pathogen present in the fluid and determining pathogen inactivation amounts based on exposure to the temperatures. Performing an energy balance may include receiving a plurality of input parameters relating to the fluid heating system. The plurality of input parameters may relate to a solar collection system and an associated fluid control system. The solar collection system may include a parabolic mirror and the fluid control system may include an elongated flow element arranged along a focal axis of the parabolic mirror.

8. 发明授权

US10890645B2 Dual axis tracking method 有权
公开(公告)号：US10890645B2
公开(公告)日：2021-01-12
申请号：US16196251
申请日：2018-11-20
申请人： WTS LLC
发明人： Brian Plourde , John Abraham , Douglas Plourde , Richard Pakonen , Andy Gikling
IPC分类号： G01S3/786 , G01S19/01 , F24S50/20 , F24S30/45 , G05D3/10 , F24S23/74 , F24S50/40 , F24S20/20 , F16K24/04 , G05D23/185
摘要： The disclosure relates to a tracking device configured to track an object in space, such as the sun, as the object moves across the sky. The tracking device may further be configured to direct a payload toward the object or toward an angle relative to the object. The tracking device may continuously or intermittently determine the location of the moving object, and adjust the position of the payload accordingly. The tracking device may calculate the position of the moving object based on GPS information, such as triangulated coordinates of the tracking device, date, and time. Generally, the tracking device may be capable of tracking an object such as the sun from anywhere on the earth's surface. The tracking device may employ one or more actuation assemblies to position the payload toward or relative to the moving object. The one or more actuation assemblies may operate through linear motion.

9. 发明申请

US20160154082A1 DUAL AXIS TRACKING DEVICE 审中-公开
标题翻译：双轴追踪装置
公开(公告)号：US20160154082A1
公开(公告)日：2016-06-02
申请号：US14954091
申请日：2015-11-30
申请人： WTS LLC
发明人： Brian Plourde , John Abraham , Douglas Plourde , Richard Pakonen , Andy Gikling
IPC分类号： G01S3/786 , F24J2/38 , F24J2/54 , G01S19/01
CPC分类号： G01S3/7861 , F16K24/042 , F24S20/20 , F24S23/74 , F24S30/45 , F24S50/20 , F24S50/40 , G01S19/01 , G05D3/105 , G05D23/1852 , Y02E10/41 , Y02E10/45 , Y02E10/47 , Y02W10/37
摘要： The disclosure relates to a tracking device configured to track an object in space, such as the sun, as the object moves across the sky. The tracking device may further be configured to direct a payload toward the object or toward an angle relative to the object. The tracking device may continuously or intermittently determine the location of the moving object, and adjust the position of the payload accordingly. The tracking device may calculate the position of the moving object based on GPS information, such as triangulated coordinates of the tracking device, date, and time. Generally, the tracking device may be capable of tracking an object such as the sun from anywhere on the earth's surface. The tracking device may employ one or more actuation assemblies to position the payload toward or relative to the moving object. The one or more actuation assemblies may operate through linear motion.
摘要翻译：本公开涉及一种跟踪装置，其被配置为当对象跨越天空移动时，跟踪太空等空间中的物体。跟踪装置还可以被配置成将有效载荷指向物体或朝向与物体成一定角度。跟踪装置可以连续地或间歇地确定移动物体的位置，并相应地调节有效载荷的位置。跟踪装置可以基于GPS信息来计算移动物体的位置，例如跟踪装置的三角坐标，日期和时间。通常，跟踪装置可能能够从地球表面上的任何地方跟踪诸如太阳的物体。跟踪装置可以采用一个或多个致动组件来将有效载荷朝向或相对于移动物体定位。一个或多个致动组件可以通过线性运动来操作。

10. 发明授权

US11920801B2 Digital fluid heating system 有权
公开(公告)号：US11920801B2
公开(公告)日：2024-03-05
申请号：US17301246
申请日：2021-03-30
申请人： WTS LLC
发明人： Brian Plourde , Andrew Gikling , John Abraham , Richard Pakonen , Douglas Plourde
IPC分类号： F24D17/00 , C02F1/14 , F24D3/08 , F24S20/20 , F24S23/74 , F24S30/452 , F24S50/20 , F24S50/40 , F24S30/428 , F24S80/30
CPC分类号： F24D17/0021 , C02F1/14 , F24D3/082 , F24S20/20 , F24S23/74 , F24S30/452 , F24S50/20 , F24S50/40 , F24S30/428 , F24S2050/25 , F24S80/30 , Y02A20/212 , Y02B10/20 , Y02B10/70 , Y02E10/47 , Y02W10/37
摘要： A digital fluid heating system may include a solar collection system configured for focusing sunlight on a focal axis, an elongated flow element arranged and configured for transporting fluid along the solar collection system at the focal axis, and a flow-control assembly comprising a digitally controlled valve configured to control the flow of the fluid in the elongated flow element such that pathogens present in the fluid are substantially inactivated before the fluid exits the fluid heating system and at a maximized flow rate under the given energy providing conditions. The system may also include one or more digital controls and communication systems for remote and/or automatic control.

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