由振動流管決定其質量流量之方法

Cheng-Yu Hsieh; 謝承祐

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/70400

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	張培仁(Pei-Zen Chang)
dc.contributor.author	Cheng-Yu Hsieh	en
dc.contributor.author	謝承祐	zh_TW
dc.date.accessioned	2021-06-17T04:27:21Z	-
dc.date.available	2023-08-17
dc.date.copyright	2018-08-17
dc.date.issued	2018
dc.date.submitted	2018-08-14
dc.identifier.citation	[1] T. Wang and R. Baker, 'Coriolis flowmeters: a review of developments over the past 20 years, and an assessment of the state of the art and likely future directions,' Flow Measurement and Instrumentation, vol. 40, pp. 99-123, 2014. [2] W. C. Wiley, G. W. Goodrich, and F. L. Adams, 'Oscillating mass flowmeter,' ed: Google Patents, 1963. [3] J. E. Smith and D. R. Cage, 'Parallel path Coriolis mass flow rate meter,' ed: Google Patents, 1985. [4] G. Sultan and J. Hemp, 'Modelling of the Coriolis mass flowmeter,' Journal of Sound and Vibration, vol. 132, no. 3, pp. 473-489, 1989. [5] H. Raszillier and F. Durst, 'Coriolis-effect in mass flow metering,' Archive of Applied Mechanics, vol. 61, no. 3, pp. 192-214, 1991. [6] F. Cascetta, S. Della Valle, A. Guido, S. Pagano, and P. Vigo, 'A new straight-pipe coriolis mass flowmeter: the mathematical model,' Measurement, vol. 9, no. 3, pp. 115-123, 1991. [7] G. Sultan, 'Single straight-tube Coriolis mass flowmeter,' Flow Measurement and Instrumentation, vol. 3, no. 4, pp. 241-246, 1992. [8] J. Kutin and I. Bajsić, 'An analytical estimation of the Coriolis meter’s characteristics based on modal superposition,' Flow Measurement and Instrumentation, vol. 12, no. 5, pp. 345-351, 2002/01/01/ 2002. [9] J. Reddy and C. Wang, 'Dynamics of fluid-conveying beams: governing equations and finite element models,' Singapore: Centre for Offshore Research and Engineering, 2004. [10] C. Multiphysics®. (2017). Coriolis Flow Meter: FSI Simulation in the Frequency Domain. Available: https://www.comsol.com/model/coriolis-flow-meter-fsi-simulation-in-the-frequency-domain-51831 [11] V. Kumar and M. Anklin, 'Numerical simulations of Coriolis flow meters for low Reynolds number flows,' Mapan, vol. 26, no. 3, p. 225, 2011. [12] G. Bobovnik, N. Mole, J. Kutin, B. Štok, and I. Bajsić, 'Coupled finite-volume/finite-element modelling of the straight-tube Coriolis flowmeter,' Journal of fluids and structures, vol. 20, no. 6, pp. 785-800, 2005. [13] J. J. Thomsen and J. Dahl, 'Analytical predictions for vibration phase shifts along fluid-conveying pipes due to Coriolis forces and imperfections,' Journal of Sound and Vibration, vol. 329, no. 15, pp. 3065-3081, 2010/07/19/ 2010. [14] R. Cheesewright and C. Clark, 'The effect of flow pulsations on Coriolis mass flow meters,' Journal of Fluids and Structures, vol. 12, no. 8, pp. 1025-1039, 1998. [15] P. Romano, 'Coriolis mass flow rate meter having a substantially increased noise immunity,' ed: Google Patents, 1990. [16] J. F. Chicharo and M. T. Kilani, 'A sliding Goertzel algorithm,' Signal Processing, vol. 52, no. 3, pp. 283-297, 1996. [17] Y. Tu and H. Zhang, 'Method for CMF signal processing based on the recursive DTFT algorithm with negative frequency contribution,' IEEE Transactions on Instrumentation and Measurement, vol. 57, no. 11, pp. 2647-2654, 2008. [18] K.-j. Xu and W. Ni, 'A lattice notch filter based signal processing method for Coriolis mass flowmeter,' Acta Metrologica Sinica, vol. 26, no. 1, pp. 49-52, 2005. [19] T. a. Shen, Y. Tu, M. Li, and H. Zhang, 'A new phase difference measurement algorithm for extreme frequency signals based on discrete time Fourier transform with negative frequency contribution,' Review of Scientific Instruments, vol. 86, no. 1, p. 015104, 2015. [20] N. R. Lomb, 'Least squares frequency analysis of unequally spaced data,' Astrophysics and space science, vol. 39, no. 2, pp. 447-462, 1976. [21] G. A. Colman, 'Coriolis-type fluid mass flow rate measurement device and method employing a least squares algorithm,' ed: Google Patents, 1995. [22] J. C. Lagarias, J. A. Reeds, M. H. Wright, and P. E. Wright, 'Convergence properties of the Nelder--Mead simplex method in low dimensions,' SIAM Journal on optimization, vol. 9, no. 1, pp. 112-147, 1998. [23] M. T. M. Inc. (1990-2018). Optimizing Nonlinear Functions - fminsearch Algorithm. Available: https://www.mathworks.com/help/matlab/math/optimizing-nonlinear-functions.html#bsgpq6p-11 [24] T. Coleman, Y. Zhang, M. A. Branch, and A. Grace, 'Optimization toolbox user’s guide,' Matlab The Mathworks Inc, pp. 6-11-6-12, 2018.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/70400	-
dc.description.abstract	本研究旨於建立一個用於分析模擬單直管科氏質量流量計的解析模型。首先根據尤拉樑和均速流的假設，推導出具流動流體之振動管的解析模型，該解析模型並考慮了驅動器和感測器的集中質量效應。接著採用模態展開法求解該解析模型，推導出位於量測管之二個對稱位置的感測器之振動信號，及該二個感測器之振動訊號的相位差與質量流量之間的轉換關係。將該振動訊號的相位差與質量流量之間的轉換關係導入流量計的質量流量演算法，便可由流量計的輸出信號得知管中的質量流量。本論文完整呈現了單直管科氏質量流量計的模擬分析過程，並且以實驗驗證了解析模型和相位差計算演算法的可行性，進而作為單直管科氏質量流量計產品原型的設計依據。	zh_TW
dc.description.abstract	This thesis aims at developing an analytical model of straight-tube Coriolis mass flowmeter. Based on Euler-Bernoulli beam theory and the assumption of uniform flow, an analytical model considering the concentrated masses of a driver, which is mounted on the middle point of the tube, and two motion sensors, which are mounted on two symmetrical positions with respect to the driver, is derived. The driver, mounted on the middle point of the flow tube, actuates the flow tube at its first natural frequency. The two motion sensors, mounted at symmetrical positions on both sides of the driver, sense the vibration of flow tube. The analytical model is solved by means of modal expansion method. The phase difference of the signals output by the motion sensors is dependent on the mass flow rate. In summary, this thesis use an algorithm based on the Nelder-Mead Simplex algorithm and least square fitting for calculating the mass flow rate from the signals output by the motion sensors. The algorithm is validated by experiment. A reference to design the prototype of straight-tube Coriolis mass flowmeter is established.	en
dc.description.provenance	Made available in DSpace on 2021-06-17T04:27:21Z (GMT). No. of bitstreams: 1 ntu-107-R05543050-1.pdf: 4269329 bytes, checksum: 768f7566cdf4d386da9ad4148cc31221 (MD5) Previous issue date: 2018	en
dc.description.tableofcontents	誌謝 i 中文摘要 ii ABSTRACT iii CONTENTS iv LIST OF FIGURES vi LIST OF TABLES viii NOMENCLATURE ix SUBSCRIPTS xii Chapter 1. Introduction 1 1.1 Motivation 1 1.2 Literature survey 1 1.2.1. Review of design and basic principle of the CMF 1 1.2.2. Review of the fluid-structure coupled model 3 1.2.3. Review on the algorithm of phase difference estimation 6 1.2.4. Thesis structure 8 Chapter 2. Analytical model 9 2.1 Problem description and basic assumption 9 2.2 Free vibration of the fluid-conveying tube 10 2.3 Modified frequency with concentrated masses effect 11 2.4 Forced vibration of the measuring tube conveying steady fluid-flow 18 2.5 Phase difference prediction 23 Chapter 3. Phase difference estimating algorithm 26 3.1 Nelder-Mead Simplex algorithm 26 3.1.1. Procedure I: Initial guess 28 3.1.2. Procedure II: Generate the original simplex 29 3.1.3. Procedure III: Iteration 29 3.1.3.1. Reflect 30 3.1.3.2. Expand 30 3.1.3.3. Contract 31 3.1.3.4. Shrink 32 3.2 Least square fitting algorithm 32 3.3 Algorithm test 36 Chapter 4. Measurement and experiment 41 4.1 Data processing 41 4.2 Experiment result 46 Chapter 5. Conclusion 49 References 51
dc.language.iso	zh-TW
dc.title	由振動流管決定其質量流量之方法	zh_TW
dc.title	A Methodology for Determining the Mass Flow Rate in an Oscillating Fluid-conveying Tube	en
dc.type	Thesis
dc.date.schoolyear	106-2
dc.description.degree	碩士
dc.contributor.coadvisor	胡毓忠(Yuh-Chung Hu)
dc.contributor.oralexamcommittee	李尉彰,鄭兆凱
dc.subject.keyword	科氏力質量流量計,尤拉樑振動解析模型,集中質量效應,模態展開法,相位差計算演算法,	zh_TW
dc.subject.keyword	Coriolis mass flowmeter,Analytical model of Euler beam vibration,Effect of the concentrated masses,Modal expansion method,Phase difference estimating algorithm,	en
dc.relation.page	52
dc.identifier.doi	10.6342/NTU201803286
dc.rights.note	有償授權
dc.date.accepted	2018-08-14
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	應用力學研究所	zh_TW
顯示於系所單位：	應用力學研究所

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