Měření parametrů ultrazvukového svazku / Measurement of ultrasonic beam parameters

Hlavatý, Radek

January 2021

The work deals with methods of measuring the parameters of the ultrasonic beam generated by piezoelectric sensors. The theoretical part contains a literature search of methods for the analysis of the ultrasonic beam generated by piezoelectric transducers with dimensions of units of millimeters. The problematics of measurement using piezoelectric or optical fiber hydrophones is investigated in more detail. The scope of the practical part of the work is the design and implementation of measuring equipment that allows spatial analysis of the beam during propagation by a complicated signal path, for automotive level and concentration sensors of the company Vitesco Technologies s.r.o. The system uses a hydrophone method to measure the ultrasonic beam. Due to test measurements, the repeatability of the measured results is confirmed, the results are discussed in the end.

Non-Invasive Methods To Detect Underground Leaks

January 2019

abstract: Water is one of, if not the most valuable natural resource but extremely challenging to manage. According to old research in the field, many Water Distribution Systems (WDSs) around the world lose above 40 percent of clean water pumped into the distribution system because of unfortune leaks before the water gets anywhere from the fresh water resources. By reducing the amount of water leaked, distribution system managers can reduce the amount of money, resources, and energy wasted on finding and repairing the leaks, and then producing and pumping water, increase system reliability and more easily satisfy present and future needs of all consumers. But having access to this information pre-amatively and sufficiently can be complex and time taking. For large companies like SRP who are moving tonnes of water from various water bodies around phoenix area, it is even more crucial to efficiently locate and characterize the leaks. And phoenix being a busy city, it is not easy to go start digging everywhere, whenever a loss in pressure is reported at the destination. Keeping this in mind, non-invasive methods to geo-physically work on it needs attention. There is a lot of potential in this field of work to even help with environmental crisis as this helps in places where water theft is big and is conducted through leaks in the distribution system. Methods like Acoustic sensing and ground penetrating radars have shown good results, and the work done in this thesis helps us realise the limitations and extents to which they can be used in the phoenix are. The concrete pipes used by SRP are would not be able to generate enough acoustic signals to be affectively picked up by a hydrophone at the opening, so the GPR would be helpful in finding the initial location of the leak, as the water around the leak would make the sand wet and hence show a clear difference on the GPR. After that the frequency spectrum can be checked around that point which would show difference from another where we know a leak is not present. / Dissertation/Thesis / Masters Thesis Mechanical Engineering 2019

Acoustics

Geophysical engineering

Fast fourier transform

Ground penetrating radar

Hydrophone

Leak detection

review

A Laser Hydrophone

Barnoske, Steven Kenneth

01 January 1977

This report proposes a novel technique for measuring of acoustic fields in water. A Laser Hydrophone is proposed taking advantage of the properties of Total Internal Reflection. A theoretical analysis of the idea is presented followed by a prediction of the operating characteristics of an actual system. Actual data were taken with the proposed system and it is compared to the predicted.

Hydrophone

Underwater acoustics

Instruments

Engineering

Materials Science and Engineering

Semiconductor and Optical Materials

Caractérisation expérimentale et théorique des écoulements entraînés par ultrasons. Perspectives d'utilisation dans les procédés de solidification du Silicium Photovoltaïque / Experimental and theoretical caracterization of acoustic streaming. Prospect of an use for photovoltaic Silicon solidification.

Moudjed, Brahim

02 December 2013

La présente étude s'intéresse à un écoulement d'acoustic streaming, c'est-à-dire un écoulement généré par la propagation d'une onde acoustique dans un fluide. Le travail consiste à comparer deux approches: expérimentale et numérique. Les ultrasons sont émis à 2MHz par un transducteur piézo-électrique de 28.5mm de diamètre. Ce dernier est plongé dans une cuve d'eau équipée de deux parois absorbantes: l'une sert à séparer le champ proche du champ lointain et l'autre est placée à l'extrémité du domaine fluide afin d'éviter toutes réflexions. On réalise ainsi une étude en champ proche et une étude en champ lointain. Les mesures sont de deux types: champ de pression acoustique (hydrophone) et champ de vitesse (PIV). En parallèle, on effectue des simulations numériques directes avec le logiciel StarCCM+TM. Il s'agit de résoudre les équations de Navier-Stokes en fluide incompressible complétées d'un terme source de force acoustique. L'expression de ce dernier est obtenue par séparation des échelles de temps, ce qui consiste à négliger à l'échelle de temps acoustique les variations temporelles lentes, de l'écoulement généré. La démarche est ensuite analogue à celle utilisé en turbulence pour le calcul des tenseurs de Reynolds. On obtient finalement un bon accord entre les résultats expérimentaux et ceux de la modélisation numérique. / Acoustic streaming, i.e. the flow induced by a propagating acoustic wave, is investigated here with both experiental and numerical approaches. The ultrasound source is a 2MHz transducer with a 29mm diameter. The transducer is introduced inside a water tank with two absorbing walls. An intermediate absorbing wall is used to separate the near field from the far field. An other absorbing wall is placed in the opposite side to teh source to avoid reflective waves. Both near field and far field are studied. The measurements concern the acoustic pressure field (hydrophone) and the velocity field (PIV). Numerical simulations are also performed with the software STARCCM+TM. They solve the incompressible Navier-Stokes equations with an acoustic force source term. Ths term is obtained by time scale separation: the slow variations of the flow are neglected on an acoustic time scale with regard to the fast variations of the acoustic field. The procedure is then similar to that used in turbulence for Reynolds stress calculation. A good agreement is eventually obtained between the experimental and numerical results.

Mécanique des fluides

Ecoulement pe

Onde acoustique

Ultrason

Acoustic streaming

Hydrophone

Fluid mechanics

Flow

Acoustic wave

Ultrasound

Acoustic streaming

Hydrophone

PIV - Particle Image Velocimetry

620.106 407 2

Development of a freehand three-dimensional radial endoscopic ultrasonography system

Inglis, Scott

January 2009

Oesophageal cancer is an aggressive malignancy with an overall five-year survival of 5-10% and two-thirds of patients have irresectable disease at diagnosis. Accurate staging of oesophageal cancer is important as survival closely correlates with the stage of the tumour, nodal involvement and presence of metastases (TNM staging). Endoscopic ultrasonography (EUS) is currently the most reliable modality for providing accurate T and N staging. Depending on findings of the staging, various treatment options including endoscopic, oncological, and surgical treatments may be performed. It was theorised that the development of three-dimensional radial endoscopic ultrasonography would reduce the operator dependence of EUS and provide accurate dimensional and volume measurements to aid planning and monitoring of treatment. This thesis investigates the development of a three dimensional endoscopic ultrasound technique that can be used with the radial echoendoscopes. Various agar-based tissue mimicking material (TMM) recipes were characterised using a scanning acoustic macroscope to obtain the acoustic properties of attenuation, backscatter and speed of sound. Using these results, a number of endoscopic ultrasound phantoms were developed for the in-vitro investigation and evaluation of 3D-EUS techniques. To increase my understanding of EUS equipment, the imaging and acoustic properties of the EUS endoscopes were characterised using a pipe phantom and a hydrophone. The dual ‘single element’ mechanical and ‘multi-element’ electronic echoendoscopes were investigated. Measured imaging properties included dead space, low contrast penetration, and pipe length. The measured acoustic properties included transmitted beam plots, active working frequency and peak pressures. Three-dimensional ultrasound techniques were developed for specific application to EUS. This included the study of positional monitoring systems, reconstruction algorithms and measurement techniques. A 3D-EUS system was developed using a Microscribe positional arm and frame grabber card, to acquire the 3D dataset. A Matlab 3D-EUS toolbox was written to reconstruct and analyse the volumes. The 3D-EUS systems were evaluated on the EUS phantom and in clinical cases. The usefulness of the 3D-EUS systems was evaluated in a cohort of patients, who were routinely investigated by conventional EUS for a variety of upper gastrointestinal pathology. 3D-EUS accurately staged early tumours and provided the necessary anatomical information to facilitate treatment. With regards to more advanced tumours, 3D-EUS was more accurate than EUS in T and N staging. 3D-EUS gave useful anatomical details in a variety of benign conditions such as varicies and GISTs.

615.84

Experimental Design, Data Analysis, and Modeling for Characterizing the Three-Dimensional Acoustic Field of a Seismic Airgun Array

Tashmukhambetov, Arslan

06 August 2009

In June 2003, the Littoral Acoustic Demonstration Center conducted an acoustic characterization experiment for a standard seismic exploration array. Two moorings with Environmental Acoustic Recording Systems (EARS) were deployed in the northern part of the Gulf of Mexico to measure ambient noise and collect shot information. A 21-element seismic airgun array was towed along five parallel linear tracks with horizontal closest approach points to the EARS buoy position of 63, 500, 1000, 2000, and 5000 m. Calibrated acoustic pressure measurements collected during the experiment were analyzed to obtain zero-to-peak sound pressures, sound exposure levels, and pressure levels in 1/3-octave frequency bands. In addition, the experimental data were modeled by using a modified underwater acoustic propagation model to fill in missing data measurements. The resulting modeling procedure showed good agreement between measured and modeled data in absolute pressure amplitudes and frequency interference patterns for frequencies up to 1000 Hz. The analysis is important for investigating the potential impact on marine mammals and fish and predicting the exposure levels for newly planned seismic surveys in other geographic areas. Based on results of the experiment conducted and data analysis performed, a new experimental design was proposed to maximize the amount of collected data using the available equipment while minimizing the time needed for the source ship. The design used three patches, one with 3º angular spacing between the lines at a reference depth. Embedded is a smaller patch with 1º spacing and within that a still smaller patch with one half degree spacing. This arrangement gives a reasonably uniform distribution of shots versus solid angle with a large variety of emission and azimuthal angles for different ranges. Due to the uncertainty of positioning systems, the angular space is divided into solid angle bins. Simulations predicted more than 200 shots per bin for emission angles greater than 13 degrees. Statistical analysis of collected data will be performed on the proposed bin basis. An experiment based on the proposed design was conducted in Fall 2007. The data measurements collected during the experiment are currently being analyzed and will be reported in the near future.

Airgun array characterization

airgun array

seismic airgun array

underwater acoustics

acoustical data analysis

hydrophone measurements

acoustic propagation modeling

The Double Mach-Zehnder Interferometric Hydrophone Based on a Dual Sagnac Ring Configuration

Liu, Shu-Xuan

14 July 2004

This paper reports a reciprocal Mach-Zehnder interferometer in a dual Sagnac ring configuration, and one of two arms in Mach-Zehnder interferometer is used for underwater optic fiber hydrophone. Two Mach-Zehnder interferometers operated in opposite sense are simultaneously induced from the underwater acoustic wave and the PZT phase modulation. Thus, at the output, four interferometric beams occur such that the intensity of interferometric beams will enhance. In general, one stage of a double Mach-Zehnder interferometer is just used as a sensor, another one for compensation. Specially, this paper presents two stages of a double Mach-Zehnder interferometer sense the measurand at the same time due to the topology structure of Sagnac ring pairs. In the other words, the characteristic is to win the affection of two beauties at the same time. Two rings in the same direction make a Mach-Zehnder interferometer. Besides, the inner ring in the clockwise direction and the outer one in the counterclockwise direction also make a Mach-Zehnder interferometer. So as to the unbalanced arms of the Mach-Zehnder interferometer, the underwater acoustic wave induces the light beam phase difference in optic fiber hydrophone interrogator to demodulate the acoustic wave signal by PGC circuit.

phase-generated carrier demodulation

Fiber Bragg grating

Mach-Zehnder interferometer

fiber optic hydrophone

dual Sagnac ring interferometer

Pb zirconate titanate phase modulator

Cavitation acoustique dans l'eau et quelques liquides organiques : densité et limite de rupture

Arvengas, Arnaud

12 September 2011

Cette thèse porte sur l'étude expérimentale de la cavitation acoustique dans l'eau et quelques autres liquides. Le 1er chapitre est consacré à une présentation des transitions de phase du premier ordre dans le régime métastable. Le 2e chapitre présente la théorie de nucléation classique, ainsi que le théorème de nucléation d'Oxtoby qui nous permet d'évaluer le volume de la bulle critique dans nos expériences. Puis un bilan expérimental de quelques méthodes pour étudier la cavitation est dressé. Nous présentons les singularités de l'eau par rapport aux autres liquides et montrons en quoi une étude de la limite de cavitation permettrait de les comprendre. Dans le 3e, nous présentons notre dispositif acoustique ainsi que la méthode de pression statique qui permet de déterminer la pression de cavitation. Nous présentons en détail l'hydrophone à fibre optique construit pour cette thèse sur le modèle de celui d'Eisenmenger, qui permet de mesurer la densité au seuil de cavitation. Les résultats et leur analyse sont présentés, pour l'eau, dans le 4e, pour le D2O, l'éthanol, l'heptane et le DMSO, dans le 5e chapitre. De l'étude de l'eau, il ressort que l'on est très loin de la théorie, et d'un type d'expérience. En revanche une modification par un facteur constant en température, de la tension de surface de l'eau permet de prédire nos résultats en pression, mais pas les volumes critiques de nucléation. Par ailleurs, l'étude dans les autres liquides montre que nous pouvons, par notre méthode, arriver à des résultats proches de la théorie, d'autant plus que la tension de surface du liquide étudié est faible.

Cavitation

transition de phase

métastabilité

pression négative

nucléation

hydrophone optique

acoustique

eau

éthanol

heptane

D2O

Měření výkonu v ultrazvukových polích / Power measurement in ultrasound fields

Škůrek, Pavel

January 2010

This work is focused on the developement of a sensor, which enables to measure the ultrasonic power by heat effect of the mechanical Wales. The princip of two basic kinds of thermoacoustic sensor is descibed here – one level and two level sensor. This work also contains a proposition of these sensors with description of each parts and a trial to find suitable absorber. Achieved results, which support the function of the sensors are presented here by form of graphs and tables. Measuring by thermoacoustic sensors is confronted here with measuring of ultrasonic by hydrophone, which is used as reference measuring.

Vliv terapeutického ultrazvukového pole a metalických nanočástic na nádorové buňky / The effect of therapeutical ultrasound and metalic nanoparticles on carcinoma cells

Kalužová, Adéla

January 2014

This thesis focuses on the research of an effect of ultrasound and nanoparticles on cancer cells. In the literature search there the applications of ultrasound field in the interaction with aplication of metallic nanoparticles to viability of cancer cells are described, on the basis of in vitro experiments‘ performance. The purpose of metallic nanoparticles‘ application should be a possible reinforcing of its antitumor effect thanks to the presence of ultrasound field. In next part of the literature search there are included the technical performance of devices, their indications and contraindications, parameters of ultrasound fields and application of metallic nanoparticles. The metallic nanoparticles have been becoming a part of the human’s life more and more, that is why it’s necessary to deal with these miniature particles at a higher level. The aim of this thesis is to suggest the ways of resolution based on the principle of sounding of cells with the ultrasound field of suitable parameters and in combination with the application of metallic nanoparticles with a successive performance of the cell viability tests. The viability was determinated by the MTT assay test. Another part of this work is the measurement of parameters of this zone by means of a submersible needle hydrophone, for a better understanding of the ultrasonic zone. In the final part of this work there is necessary the statistical evaluation of the measured data of the experiments carried out and the discussion of the results obtained.