초록 ▼

A leak detection system for the rapid and accurate detection of the mean surface level change of a body of liquid is provided. The system is capable of sensing mean surface level changes under static or turbulent surface conditions. In one embodiment, the system includes a rigid walled sensor pod wi

A leak detection system for the rapid and accurate detection of the mean surface level change of a body of liquid is provided. The system is capable of sensing mean surface level changes under static or turbulent surface conditions. In one embodiment, the system includes a rigid walled sensor pod with at least one inner pod cavity that is so positioned to receive liquid from a body of liquid by way of an opening below the surface of the liquid such that dynamic equilibrium is possible and maintained between the mean surface level of the body of liquid and the amount of liquid in the inner cavity. The system further includes a sensor assembly having a stiction free float operating in conjunction with a strain gauge, and microprocessors applying algorithms to process, display, and report the sensor data in accordance with the needs of the end user or to initiate actions for automated control functions.

대표청구항 ▼

1. An apparatus for monitoring fluid level of a fluid in a container, the apparatus comprising: a sensor pod comprising a housing having an upper end and a lower end, the housing defining a cavity therein, the housing having an opening configured to allow fluid in the container to flow into and out

1. An apparatus for monitoring fluid level of a fluid in a container, the apparatus comprising: a sensor pod comprising a housing having an upper end and a lower end, the housing defining a cavity therein, the housing having an opening configured to allow fluid in the container to flow into and out of the cavity;a sensor assembly disposed in the cavity, the sensor assembly comprising a strain gauge coupled to a load beam disposed at the upper end of the cavity and a float disposed below the load beam, the float is not mechanically connected to the strain gauge and does not engage with the strain gauge when water is not present inside the cavity and configured to engage the load beam when a sufficient fluid level is provided in the cavity and to move toward or away from the load beam in response to changes in the fluid level in the cavity, the strain gauge configured to output distortion data in response to distortion or movement of the load beam caused by movement of the float; anda sample tube configured to provide fluid communication between the container and the cavity, the sample tube having a first end and a second end, the first end configured to be attached to the opening in the housing, the second end configured to be disposed in the container. 2. The apparatus of claim 1, wherein the sample tube has a length between the first end and the second end, and the length is selected so that the second end can be disposed below the fluid level in the container at a depth where turbulence or wave effects are reduced compared to turbulence or wave effects at the surface of the fluid in the container. 3. The apparatus of claim 1, further comprising an adjustable mount configured to hold the sensor pod relative to the fluid in the container so that at least the opening of the housing is below the fluid level of the container. 4. The apparatus of claim 1, further comprising an analog-to-digital converter disposed in the sensor pod adjacent to the sensor assembly and electrically connected to the strain gauge, the analog-to-digital converter configured to receive analog distortion data from the strain gauge and to output digital distortion data. 5. The apparatus of claim 1, further comprising a controller configured to receive the distortion data from the strain gauge and to determine, based at least in part on the distortion data, a value representative of the fluid level or a change in the fluid level in the container. 6. The apparatus of claim 5, wherein the controller is configured to determine the change in the fluid level using a regression algorithm. 7. The apparatus of claim 5, wherein the controller is configured to communicate with a remote valve capable of adding fluid to the container or draining fluid from the container. 8. The apparatus of claim 7, wherein the controller is further configured to communicate a signal to the remote valve to add fluid to the container if the fluid level determined by the controller is below a first threshold and to drain fluid from the container if the fluid level determined by the controller is above a second threshold. 9. The apparatus of claim 5, further comprising a display configured to display information relating to the fluid level, the change in the fluid level, or a rate of change of the fluid level of the container. 10. The apparatus of claim 9, wherein the displayed information comprises a graph. 11. The apparatus of claim 9, further comprising a remote handheld unit configured to be in communication with the strain gauge, the remote handheld unit comprising the controller and the display. 12. A system for measuring and monitoring a fluid level in a container of fluid, the system comprising: a sensor pod having a cavity with an opening configured to allow fluid in the container to flow into and out of the cavity;a fluid level sensor disposed in the cavity of the sensor pod, the fluid level sensor comprising a stiction free movable float disposed below a strain gauge, the stiction free movable float configured for stictionless movement in response to changes in the fluid level in the cavity, wherein said stiction free movable float is not mechanically connected to other components in the sensor pod and does not engage with the strain gauge when water is not present inside the cavity;an analog-to-digital converter disposed in the cavity adjacent the fluid level sensor, the analog-to-digital converter configured to convert analog data received from the fluid level sensor to digital data;a controller configured to receive the digital data from the analog-to-digital converter, the controller configured to receive the digital data from the analog-to-digital converter and, based at least in part on the digital data, to determine a value of a fluid level or a change in the fluid level in the cavity;a downsample tube configured to provide fluid communication between the cavity in the sensor pod and the fluid in the container, the downsample tube having a length such an end of the downsample tube can be disposed in the container at a depth where turbulence or wave effects are reduced compared to turbulence or wave effects at the surface of the fluid in the container; anda display configured to be in communication with the controller, the display configured to output information related to the value or the change of the value of the fluid level in the cavity. 13. The system of claim 12, further comprising a handheld unit that is remote from the sensor pod and configured to communicate with the fluid level sensor, the handheld unit comprising the controller and the display. 14. A method for monitoring a fluid level in a container of fluid, the method comprising: disposing, adjacent the container of fluid, a sensor system for monitoring the fluid level in the container of fluid, the sensor system comprising:a sensor pod having a cavity with an opening configured to allow fluid in the container to flow into and out of the cavity;a fluid level sensor disposed in the cavity, the fluid level sensor comprising a strain gauge coupled to an upper surface of the cavity and a movable float disposed below the strain gauge, the movable float is not mechanically attached to a component inside the cavity and does not engage with the strain gauge when water is not present inside the cavity and configured for stictionless movement in the cavity in response to changes in the fluid level in the cavity;a controller in communication with the fluid level sensor, the controller configured to determine a value representative of a rate of change of the fluid level in the container; anda downsample tube configured to provide fluid communication between the cavity in the sensor pod and the fluid in the container, the downsample tube having a first end attached to the opening and a second end configured to be disposed in the container of fluid;positioning the sensor pod in the container such that at least the opening and the first end of the downsample tube are below the fluid level in the container and the movable float engages the strain gauge;disposing the second end of the downsample tube below the fluid level in the container at a depth where turbulence or wave effects are reduced compared to turbulence or wave effects at the surface of the fluid in the container; andmeasuring, with the sensor system, the value representative of the rate of change of the fluid level in the container. 15. The method of claim 14, further comprising displaying information related to the value representative of the rate of change of the fluid level in the container. 16. The method of claim 14, wherein the sensor system is in communication with a remote valve capable of adding fluid to the container, the method further comprising: determining, by the controller, whether to add fluid to the container based at least in part on the value representative of the rate of change of the fluid level in the container; andcommunicating a signal to the remote valve to add fluid to the container in response to the determination. 17. The method of claim 14, further comprising comparing an evaporation rate for the container of fluid with the measured value representative of the rate of change of the fluid level in the container. 18. The method of claim 17, further comprising detecting whether there is a leak in the container by determining whether the measured value representative of the rate of change of the fluid level in the container is negative and whether the absolute value of the measured value is greater than the evaporation rate. 19. The method of claim 18, further comprising activating an alarm if the measured value representative of the rate of change of the fluid level in the container is indicative of drowning or distress in the container or illegal or unauthorized use of the container.