Method for determining condition of piping and a sequence controlled sample pump
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-001/14
G01M-001/00
F04B-043/02
F04B-051/00
G01N-001/24
G01N-029/14
G01N-029/22
G01N-001/22
출원번호
US-0111182
(2012-04-05)
등록번호
US-9588021
(2017-03-07)
우선권정보
FI-20115342 (2011-04-11)
국제출원번호
PCT/FI2012/050346
(2012-04-05)
§371/§102 date
20131101
(20131101)
국제공개번호
WO2012/140319
(2012-10-18)
발명자
/ 주소
Roine, Johannes
Kåll, Leif
Antson, Olli
출원인 / 주소
Teknologian Tutkimuskeskus VTT Oy
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
The invention relates to a sampling apparatus and method. In the sampling method, a sample is led through a flowline (20) to a pump (5) and from there on to sampling means (12, 13). According to the invention, the pump (5) is formed of an actual pump (5) and magnetic valves (4, 6) located on either
The invention relates to a sampling apparatus and method. In the sampling method, a sample is led through a flowline (20) to a pump (5) and from there on to sampling means (12, 13). According to the invention, the pump (5) is formed of an actual pump (5) and magnetic valves (4, 6) located on either side of it, which are controlled in such a way that the pumping is pulse-like.
대표청구항▼
1. A sampling method comprising the steps of: leading a sample through an inlet channel to a pump and from there on to sampling means through measurement piping, producing, via the pump, a pressure pulse in the measurement piping, measuring an echo of the pressure pulse in the measurement piping and
1. A sampling method comprising the steps of: leading a sample through an inlet channel to a pump and from there on to sampling means through measurement piping, producing, via the pump, a pressure pulse in the measurement piping, measuring an echo of the pressure pulse in the measurement piping and estimating the change of the echoes caused by the pressure pulse as a function of time in order to determine the condition of the measurement piping, wherein the inlet channel is a flow-line and the pump is formed of a pump and magnetic valves located on either side of the pump, and further comprising the step of controlling the magnetic valves in such a way that the pumping is pulse-like. 2. A sampling method according to claim 1, further comprising the steps of forming a pumping pulse from the following sequence: A. opening a suction valve, wherein the suction valve is one of the magnetic valves,B. moving the actual pump's pump membrane to the upper position,C. closing the suction valve,D. opening an outlet valve, wherein the outlet valve is the other of the magnetic valves,E. moving the actual pump's pump membrane to the upper position when a visible pulse is created, andD. closing the outlet valve. 3. A sampling method according to claim 1 wherein the pressure pulse is measured after the pump in the flow direction as a function of time in order to create an impulse response in the piping of the measuring device. 4. A sampling method according to claim 1, further comprising the steps of: creating a reference value at the beginning of the measurement, when the measurement piping is clean, in order to create an impulse response in the measuring device's measurement piping), andrepeatedly evaluating the impulse response at the moment of measurement against the reference impulse response, in order to assess the condition of the measurement piping and the sample collectors. 5. A sampling method according to claim 1, wherein a pressure pulse is produced by at least one of a control element and a valve in a desired direction in the measurement piping, when assessing the condition of the measurement piping. 6. A sampling method according to claim 1, wherein at least one three-way valve is used to direct a flow to different sampling elements. 7. A sampling method according to claim 1, wherein the pump is operated on a blow-back principle. 8. A pressure-measurement method comprising the steps of; leading a sample through an inlet channel to a pump and from there on to sampling means through measurement piping, producing a pressure pulse in the measurement piping, measuring an echo of the pressure pulse in the measurement piping, estimating the change of the echoes caused by the pressure pulse as a function of time in order to determine the condition of the measurement piping, measuring the pressure in a set of inlet channels containing a liquid or a gas, repeatedly measuring an impulse-response of the pressure in the set of inlet channels, and on the basis of the measured impulse-response information, modelling the pressure of the entire set of channels. 9. A sampling apparatus comprising: measurement piping, which has at least a flowline,a pump connected to the flowline, wherein the pump is capable of producing a pressure pulse in the measurement pipinga sampling means connected to the pump by the measurement piping for taking a sample from the flow, anda means for measuring an echo of a pressure pulse produced by the pump and for evaluating changes in the shape of the echoes caused by the pressure pulse, as a function of time, in order to determine the condition of the measurement piping. 10. A sampling apparatus according to claim 9, wherein the pump has a pump and magnetic valves located on either side of it, andwherein the sampling apparatus further comprises control elements for controlling the pump and the valves in such a way that pumping is pulse-like. 11. A sampling apparatus according claim 10, wherein the control elements have means for determining an impulse response of the pulse-like pumping pulse at different moments in time and for comparing the impulse responses determined at different moments in time with each other. 12. A sampling apparatus according to claim 9, further comprising a pressure-measurement device which is located after the pump in a designated flow direction. 13. A sampling apparatus according to claim 9, further comprising at least one three-way valve for directing the flow to various sampling elements.
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이 특허에 인용된 특허 (6)
Widrow Bernard (Santa Clara County CA), Estimation of hydraulic fracture geometry from pumping pressure measurements.
Bessman Samuel P. (7404 Woodrow Wilson Dr. Los Angeles CA 90046) Thomas ; Jr. Lyell J. (1900 Pelican Ave. San Pedro CA 90732), Piezoelectric driven diaphragm micro-pump.
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