An assembly for determining a type of a fluid, the assembly configured to be mounted to a tank containing the fluid, comprises an ultrasound sending/receiving subassembly and a processor module. The ultrasound sending/receiving subassembly is configured to send a plurality of ultrasound signals into the fluid and receive the ultrasound signals reflected from the fluid. An ultrasound signal of the plurality of ultrasound signals has at least a first frequency and a second frequency different from the first frequency. The processor module is adapted to determine an attenuation of the ultrasound signal at the first frequency and at the second frequency.

In a method for performing ultrasound tests which uses a suitable device for performing such tests, a well plate implements an insulation between the different wells of the plate of such set, without significant reflections of ultrasounds which could alter the test itself since the well plate is covered by means for closing said wells which insulates the content thereof by wholly covering the well plate and having a sound transmission speed which differs from that of the transmission liquid in the bath no more than +/−15%.

The present disclosure provides a resonator system for detecting perspiration. The system includes a resonator. The resonator includes an electronically conductive segment. The resonator further includes a polymeric component coating at least a portion of the electronically conductive segment. The resonator further includes a fluidic channel component positioned adjacent to the polymeric component and comprising a microfluidic channel.

This disclosure relates generally to a method and system for determining viscosity information of fluids. The present disclosure utilizes an intensity modulated continuous wave (CW) laser diode-based PA sensing method to obtain a continuous wave photoacoustic (CWPA) spectra. Through this CWPA spectra, a full width half maximum (FWHM) and a spectral area is determined to obtain the information about the viscosity of fluids. Although, the CWPA based sensing technique is used for distinguishing different types of abnormalities in tissues, so far it is not used for measuring viscosity which is an important thermo-physical property. The viscosity information of the fluids from the normalized Gaussian fitted CWPA spectra is based on a viscosity feature computed from a FWHM, and a spectral area. The viscosity feature improves the good of fit parameter (R.sup.2) significantly to 0.98 as compared to the traditional only FWHM based viscosity determination for which R.sup.2 is 0.91.

Apparatuses, methods, and systems for accurate measurement of the bulk modulus of a fluid in a fluid distribution system. An apparatus comprises a pipe, a first endcap, and a second endcap defining a cylindrical cavity, a means for filling the cylindrical cavity with a fluid sample, and a vibrational sensor coupled to an end plate of the second endcap and communicatively connected to a water property measurement system. The vibrational sensor is operable to, subsequent to the filling of the cylindrical cavity with the fluid sample, send a signal representative of sensed vibrations in the end plate of the second endcap to the water property measurement system while an end plate of the first endcap is excited. The water property measurement system computes a frequency response function from the signal and determines a bulk modulus value for the fluid sample based on the frequency response function.

An apparatus which includes a mounting, a plurality of detectors provided to detect a condition of at least on parameter indicative of presence of one or more materials in a gutter channel and data processing capabilities. A sequence of signals are transmitted and received when the apparatus is in a detection mode, and the data processing analyses the received signals to provide an indication if a material is detected as being present in the channel and, if detected, a type of the material. On the basis of this analysis and identification of material, decision can be made as to whether any remedial action is required to clear the material and/or decide upon an ongoing monitoring and maintenance.

In a method for performing ultrasound tests which uses a suitable device for performing such tests, a well plate implements an insulation between the different wells of the plate of such set, without significant reflections of ultrasounds which could alter the test itself since the well plate is covered by means for closing said wells which insulates the content thereof by wholly covering the well plate and having a sound transmission speed which differs from that of the transmission liquid in the bath no more than +/−15%.

Apparatuses, methods, and systems for accurate measurement of the bulk modulus of a fluid in a fluid distribution system. An apparatus comprises a pipe, a first endcap, and a second endcap defining a cylindrical cavity, a means for filling the cylindrical cavity with a fluid sample, and a vibrational sensor coupled to an end plate of the second endcap and communicatively connected to a water property measurement system. The vibrational sensor is operable to, subsequent to the filling of the cylindrical cavity with the fluid sample, send a signal representative of sensed vibrations in the end plate of the second endcap to the water property measurement system while an end plate of the first endcap is excited. The water property measurement system computes a frequency response function from the signal and determines a bulk modulus value for the fluid sample based on the frequency response function.

This document describes techniques and systems for in operando, non-invasive SOC monitoring of redox flow batteries. The described techniques and systems allow for accurate, inexpensive, portable, and real-time methods to measure the SOC of redox flow batteries. System operators can monitor the SOC by measuring an acoustic attenuation coefficient of the electrolyte in the redox flow battery. The acoustic attenuation coefficient is measured using an ultrasonic transducer attached to a probing cell, which is connected to an electrolyte flow of a redox flow battery. The acoustic attenuation coefficient provides an accurate, real-time SOC measurement that is generally insensitive to varying operational temperatures of the electrolyte solution.

An ultrasonic touch sensing system that uses both compressional and shear waves for touch and water detection is disclosed. When no touch or water is present, less shear and compressional wave energy is absorbed, so both shear and compressional wave reflections do not have significant amplitude decreases. When a finger is in contact with the sensing plate, both shear and compressional wave energy is absorbed, so both shear and compressional wave reflections have significant amplitude decreases. When water is in contact with the sensing plate, compressional energy is absorbed but little or no shear wave energy is absorbed, so while compressional wave reflections have significant amplitude decreases, shear wave reflections do not. From these amplitudes, a determination can be made as to whether no touch is present on the sensing plate, whether a touch is present on the sensing plate, or whether water is present on the sensing plate.