PL439513A1 - Method of measuring the flow parameters of liquids, an installation for transporting liquids, a pipe for transporting liquids and a sensor of liquid flow parameters - Google Patents

Method of measuring the flow parameters of liquids, an installation for transporting liquids, a pipe for transporting liquids and a sensor of liquid flow parameters

Info

Publication number
PL439513A1
PL439513A1 PL439513A PL43951321A PL439513A1 PL 439513 A1 PL439513 A1 PL 439513A1 PL 439513 A PL439513 A PL 439513A PL 43951321 A PL43951321 A PL 43951321A PL 439513 A1 PL439513 A1 PL 439513A1
Authority
PL
Poland
Prior art keywords
liquids
flow parameters
transporting
installation
liquid
Prior art date
Application number
PL439513A
Other languages
Polish (pl)
Inventor
Mateusz Mądry
Przemysław Moczko
Bogusław Szczupak
Jędrzej Więckowski
Original Assignee
Politechnika Wrocławska
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Politechnika Wrocławska filed Critical Politechnika Wrocławska
Priority to PL439513A priority Critical patent/PL439513A1/en
Publication of PL439513A1 publication Critical patent/PL439513A1/en

Links

Landscapes

  • Investigating Or Analysing Materials By Optical Means (AREA)

Abstract

Sposób pomiaru parametrów przepływowych cieczy znajdujący zastosowanie w miejscach przesyłu cieczy w instalacji rurociągowej, na przykład w przemyśle chemicznym. petro-chemicznym, układach wodociągowych, kanalizacyjnych, charakteryzuje się tym, że parametry przepływającej cieczy określa się na podstawie pomiaru odkształceń instalacji, przy czym wielkość odkształceń instalacji określa się na podstawie analizy zmian sygnału rozpraszanego występującego we włóknie światłowodowym (2) wbudowanym w masę przewodu (1) transportującego ciecz, a do pomiaru sygnału rozpraszanego wykorzystuje się reflektometr optyczny. Instalacja do transportu cieczy, której skład wchodzi przewód (1) do transportu cieczy oraz co najmniej jedno stanowiące czujnik parametrów przepływu cieczy włókno światłowodowe (2), charakteryzuje się tym, że włókno światłowodowe (2) wbudowane jest w masę przewodu (1) do transportu cieczy. Czujnik parametrów przepływu cieczy postaci co najmniej jednego włókna światłowodowego (2), charakteryzuje się tym, że włókno światłowodowe (2) wbudowane jest w masę przewodu (1) do transportu cieczy.A method of measuring the flow parameters of liquids, which is used in places where liquids are transferred in a pipeline system, for example in the chemical industry. petro-chemical, water supply and sewage systems, is characterized by the fact that the parameters of the flowing liquid are determined on the basis of the measurement of installation deformations, while the size of the installation deformation is determined on the basis of the analysis of changes in the scattered signal present in the optical fiber (2) embedded in the mass of the cable ( 1) transporting a liquid, and an optical reflectometer is used to measure the scattered signal. The installation for transporting liquids, which includes a cable (1) for transporting liquids and at least one optical fiber (2) constituting a sensor of liquid flow parameters, is characterized in that the optical fiber (2) is embedded in the mass of the cable (1) for transporting liquid. The sensor of liquid flow parameters in the form of at least one optical fiber (2) is characterized in that the optical fiber (2) is embedded in the mass of the conduit (1) for liquid transport.

PL439513A 2021-11-12 2021-11-12 Method of measuring the flow parameters of liquids, an installation for transporting liquids, a pipe for transporting liquids and a sensor of liquid flow parameters PL439513A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PL439513A PL439513A1 (en) 2021-11-12 2021-11-12 Method of measuring the flow parameters of liquids, an installation for transporting liquids, a pipe for transporting liquids and a sensor of liquid flow parameters

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PL439513A PL439513A1 (en) 2021-11-12 2021-11-12 Method of measuring the flow parameters of liquids, an installation for transporting liquids, a pipe for transporting liquids and a sensor of liquid flow parameters

Publications (1)

Publication Number Publication Date
PL439513A1 true PL439513A1 (en) 2023-05-15

Family

ID=86325407

Family Applications (1)

Application Number Title Priority Date Filing Date
PL439513A PL439513A1 (en) 2021-11-12 2021-11-12 Method of measuring the flow parameters of liquids, an installation for transporting liquids, a pipe for transporting liquids and a sensor of liquid flow parameters

Country Status (1)

Country Link
PL (1) PL439513A1 (en)

Similar Documents

Publication Publication Date Title
FR2805042B1 (en) NON-INTRUSIVE METHOD AND DEVICE FOR CHARACTERIZING THE DISTURBANCE OF A FLUID WITHIN A PIPELINE
BRPI0611032A2 (en) obtaining information about pipe leaks
AU723830B2 (en) Pipe leakage detection
CN204007804U (en) Liquid flowmeter detects self-calibrating device online
ATE506617T1 (en) ARRANGEMENT FOR MEASURING A LIQUID FLOW VELOCITY
PL439513A1 (en) Method of measuring the flow parameters of liquids, an installation for transporting liquids, a pipe for transporting liquids and a sensor of liquid flow parameters
Shama et al. Review of leakage detection methods for subsea pipeline
US20130219986A1 (en) Method and apparatus for calibrating a flow meter
CN101251397A (en) By-pass type pipeline flowmeter
CN111174875A (en) On-line calibration method of open channel flowmeter on water delivery channel with closed straight pipe section
Hughes et al. HYDRAULIC FRICTION LOSS IN SMALL DIAMETER PLASTIC PIPELINES 1
CN115406497A (en) Gas flow indicating method and system
RU2421657C1 (en) Procedure for detection of liquid hydrocarbon leaks from mains
KR100906936B1 (en) A leak location measuring method and system for a fluid material pipeline, using a sensing delay of two points
MX2023009762A (en) Pipeline breach location detection systems and methods.
CN208536934U (en) A kind of drainage type ultrasonic instrument
FI94553B (en) A method for finding a leak in a pipeline system
Ramos et al. A new approach to measure gas holdup in industrial flotation machines. Part III: industrial prototype design and assessment
Svensson et al. Application of ultrasonic clamp-on flow meters for in situ tests of billing meters in district heating systems
JPH11201812A (en) Method for measuring sound velocity in fluid piping
Saifullin et al. Methods of Leak Search from Pipeline for Acoustic Signal Analysis
Sulaima et al. Oil and gas offshore pipeline leak detection system: a feasibility study
KR19980014499A (en) Differential Pressure Type Flow Detection Apparatus and Method
RU2232344C2 (en) Method and device for location of leakage of fluid or gas in section of pipe-line
Jiang et al. Image rotation method for identification of NPW signals in the localization of pipeline leakage