研究成果

主な論文

2025

  • Ono, M., Heitmann, F., Juling, M., Krüger, H., Furuichi, N., New experiment for the pipe friction factor at high Reynolds numbers and comparisons for the degree of equivalence. European Journal of Mechanics/ B Fluids, 114 (2025) 204336.
  • Ono., M., Furuichi, N., Tsuji, Y., Spectral distribution of three velocity components in high-Reynolds-number pipe flow using laser Doppler velocimetry, Physics of Fluids,37 (2025), 055134.
  • Furuichi, N., Ono, M., Tsuji, Y., Self-similarity in the logarithmic region of turbulence intensity in high-Reynolds-number pipe flow, International Journal of Heat and Fluid Flow, 115 (2025), 109836.
  • Wada, S., Furuichi, N., Practical parameters for extending the velocity range when applying a partial inversion pulse to the ultrasonic time-domain cross-correlation method, Measurement Science and Technology, 36 (2025), 015306.

2024

  • Yoshida, T., Wada, S., Furuichi, N., Image-processing-based ultrasonic velocimetry development with high applicability to flows in microparticle dispersion, Physics of Fluids, 26 (2024), 053329
  • Muramoto, T., Ito, Y., Miyakawa, A., Furuichi, N., Viscoelasticity modeling of clay minerals by dynamic viscoelasticity measurement and its implications for earthquake faulting, Tectonophysics, 872 (2024), 230208

2023

  • Ono, M., Furuichi, N., Tsuji, Y., Reynolds number dependence of turbulent kinetic energy and energy balance of the 3-component turbulence intensity in a pipe flow, Journal of Fluid Mechanics, 975 (2023), A9.
  • Yoshida, T., Furuichi N., Efficacy assessment of controllable volumetric prover for quantifying the responsiveness of various flowmeters, Measurement, 220 (2023), 113369
  • Takegawa, N., Sawada, Y., Furuichi N., Strategic coastal dike shape for enhanced tsunami overflow reduction, PLoS ONE, 18(10) (2023), e0292930.
  • Cheong, K.H., Doihara, R., Furuichi, N., Nakagawa, M., Karasawa, R., Kato, Y., Kageyama, K., Akasaka, T., Onuma, Y., Kato, T., Measurement of the infusion flow rate of a novel non-electrically driven infusion pump in determining the influencing factors on its flow performance, Measurement, 218 (2023), 113229.
  • Muramoto, T., Ito, Y, Miyakawa, A., Furuichi, N., Strain and Stress Accumulation in Viscoelastic Splay Fault and Subducting Oceanic Crust, Geophysical Research Letters, Volume 50 (2023), e2023GL103496.
  • Yoshida,T., Wada, S., Furuichi, N., A calibration methodology of ultrasonic transducers: Evaluation of spatial propagation characteristics of pulse-echo, Measurement, 214 (2023), 112783.
  • Yoshida, T., Furuichi N., Development of controllable volumetric prover for evaluating responsiveness of flowmeter under controlled-transient flows, Measurement, 208 (2023), 112456.

2022

  • Cheong, KH., Doihara, R., Furuichi, N., Nakagawa, M., Karasawa, R., Kato, Y., Kageyama, K., Akasaka, T., Onuma, Y., Kato, T., "Optimum Pressurization Mechanism for a Non-Electrical Piston-Driven Infusion Pump", Applied Science, 12 (2022), 8421
  • Wada, S., Furuichi, N., "Applicability evaluation of the ultrasonic pulse-train Doppler method on the disturbed flow in a pipe", Flow Measurement and Instrumentation, (2022) 87, 102225
  • Furuichi, N., Arias, R., Yang, C.T., Chun, S., Meng, T., Shinder, I., Frahm, E., Büker, O., Mills, C., Akselli, B., Smits, F.M., "Final report "Key comparison CCM.FF-K1.2015 - water flow: 30 m3/h ... 200 m3/h" Metologia, (2022) 59, 1A
  • Ono, M., Furuichi, N., Wada, Y., Kurihara, N., Tsuji, Y., Reynolds number dependence of inner peak turbulence intensity in pipe flow, Physics of Fluids, (2022) 34, 045103
  • Chun, S., Furuichi N, Final report of the APMP water flow supplementary comparison (APMP.M.FF-S1), Metrologia, Volume 59 (2022), Number 1A
  • Wada Y., Furuichi, M., Tsuji Y., Correction method of measurement volume effects on time-averaged statistics for laser Doppler velocimetry, European J. of Mechanics B/Fluids, 91 (2022), p.233-243

2021

  • Takegawa, N., Ishibashi, M., Iwai, A., Furuichi, N., Morioka, T., "Verification of flow velocity measurements using micrometer-order thermometers", Scientific report, 2021 Dec 10;11(1):23778. doi: 10.1038/s41598-021-02877-w.
  • Furuichi N., Cheong, KH., Yoshida, T., "Experimental study to establish an evaluating method for the responsiveness of liquid flowmeters to transient flow rates", Flow Measurement and Instrumentation, 82 (2021), 102067.
  • Y. M. Choi, Y. Terao, N. Kurihara, A. Iwai, T. Funaki, W. Kang, D. T. Nguyen, "Revisit the Pitot static tubes in the standards", Flow Measurement and Instrumentation, 82(2021), 102074.
  • K-H. Cheong, R. Doihara, N Furuichi, Y. Terao, T. Shimada, "Primary standard for traceability in low liquid hydrocarbon fuel flow rates", Metrologia, 58, 065003. pp.21 (2021).
  • R. Doihara, T. Shimada, K-H. Cheong, N. Furuichi, "Weighing system with low evaporation error for liquid microflow down to 1 mg/min", Flow Measurement and Instrumentation, 81 (2021).
  • Furuichi, N., Ono, M., "Static pressure measurement error for wall taps with high Reynolds number turbulent pipe flow", Flow Measurement and Instrumentation, 79, 101962. (2021).
  • Wada, S., Furuichi, N., "Improving accuracy of pipe flow rate measurement with ultrasonic time-domain correlation method under small number density of reflectors", Measurement, 179, 109439 (2021).

2020

  • K. Toda, Y. Terao, W. Kaminaga, "Evaluation of measurement uncertainty in accuracy tests for fuel dispensers", OIML Bulletin, Vol.61, No.2, pp.5-19 (2020).

2019

  • N Furuichi, Y. Terao, "Re-definition of the discharge coefficient of throat-tapped flow nozzle and investigations on the influence of geometric parameters", Flow measurement and Instrumentation, Vol.65, pp.16-21 (2019).
  • T. Kyoden, S. Akiguchi, T. Tajiri, T. Andoh, N. Furuichi, R. Doihara, T. Hachigae, "Assessing the infinitely expanding intersection region for the development of large-scale multipoint laser Doppler velocimetry",Flow Measurement and Instrumentation, Vol.70,101660 (2019).

2018

  • K-H. Cheong, R. Doihara, T. Shimada, Y. Terao, "Gravimetric system using high-speed double switching valves for low liquid flow rates", Measurement Science and Technology, Vol. 29, 075304, pp.1-15 (2018).
  • N. Furuichi, Y. Terao, Y. Wada, Y. Tsuji, "Further experiments for mean velocity profile of pipe flow at high Reynolds number", Physics of Fluids, Vol. 30, No.5 (2018).

2017

  • K-H. Cheong, R. Doihara, T. Shimada, Y. Terao, "Development of a gravimetric system using a conical rotating double-wing diverter for low liquid flow rate", Flow measurement and Instrumentation, Vol. 56, pp.1=13 (2017).
  • R. Doihara, T. Shimada, K-H. Cheong, Y. Terao, "Evaluation of hydrocarbon flow standard facility equipped with double-wing diverter using four types of working liquids", Metrologia, Vol. 54, pp.262-279 (2017).
  • S. Wada, N. Furuichi, T. Shimada, "Application of partial inversion pulse to ultrasonic time-domain correlation method to measure the flow rate in a pipe", Measurement Science and Technology, Vol. 28, 115302 (2017).
  • T. Shimada, C-M. Su, I-C. Chen, S. Dignan, "Final report on the APMP key comparison liquid hydrocarbon flow (APMP.M.FF-K2.a)", Metrologia, Vol. 54, Technical Supplement, 07007 (2017).

2016

  • N. Furuichi, Y. Terao, S. Ogawa, L. Cordova, T. Shimada, "Inter-laboratory Comparison of Small Water Flow Calibration Facilities at Extremely Low Uncertainty", MEASUREMENT, Vol. 91, pp.548–556 (2016).
  • N. Furuichi, L. Cordova, T. Lederer, Y. Terao, "Comparison of high-temperature and high-Reynolds-number water flows between PTB and NMIJ", Flow measurement and Instrumentation, Voi.52, pp.157-162 (2016).
  • S. Wada, N. Furuichi, T. Shimada, "Development of Ultrasonic Pulse-Train Doppler method for velocity profile and flowrate measurement", Measurement Science and Technology, Vol. 27, 115302 (2016).
  • T Shimada, K. Bittner-Rohrhofer, V J. Medina López, R. Arias, C-M. Su, I-C Chen, F. Ribere, L. Rowan, S. Dignan, "Final report on the key comparison of hydrocarbon liquid flow: CCM.FF-K2.2015", Metrologia, Vol. 53, Technical Supplement,07018 (2016).
  • R. Doihara, T. Shimada, K-H. Cheong, Y. Terao, "Liquid low-flow calibrationrig using a syringe pump and a weighing tank system", Flow Measurement and Instrumentation, Vol. 50, pp.90-101 (2016).
  • S. Wada, N. Furuichi, "An influence of obstacle plate on uncertainty of flowrate measurement using ultrasonic Doppler velocity profile method", Flow Measurement and Instrumentation Vol.48, pp.81-89 (2016).
  • N. Furuichi, Y. Terao, S. Nakao, K. Fujita, K. Shibuya, "Further experiments and investigations for discharge coefficient of PTC 6 flow nozzle in wide range Reynolds number", Journal of Engineering for Gas Turbines and Power - Transactioms of the ASME, Vol.138, No.4, pp.041605-1-041605-11 (2016).

2015

  • 和田 裕貴, 古市 紀之, 寺尾 吉哉, 辻義之, "高レイノルズ数円管流における平均速度分布型に関する実験的研究", 日本機械学会論文集, Vol. 81-826 (2015).
  • 和田 裕貴, 古市 紀之, 辻義之, 寺尾 吉哉, "高レイノルズ数円管流における外層領域乱流統計量に関する実験的考察", 日本機械学会論文集, Vol. 81-830 (2015).
  • 和田 裕貴, 古市 紀之, 寺尾 吉哉, 辻義之, "高レイノルズ数円管流れにおける平均速度プロファイルについて", ながれ, Vol. 34-6, pp.393-396 (2015).
  • E. Muramatsu, H. Murakawa, K. Sugimoto, N. Takenaka, N. Furuichi, "Multi-wave ultrasonic Doppler method for measuring high flow-rates using staggered pulse intervals", Measurement Science and Technology, Vol.27, pp.1-11 (2015).
  • N. Furuichi, Y. Terao, " Static pressure measurement error at a wall tap of a flow nozzle for a wide range of Reynolds number", Flow Measurement and Instrumentation, Vol.46, pp.103-111 (2015).
  • N. Furuichi, Y. Terao, Y. Wada, Y. Tsuji, "Friction factor and mean velocity profile for pipe flow at high Reynolds numbers", Physics of Fluids, Vol. 27, No.9 (2015).
  • L. Cordova, N. Furuichi, T. Lederer, " Qualification of an ultrasonic flowmeter as a transfer standard for measurements at Reynolds numbers up to 4 x 10(6) between NMIJ and PTB ", Flow Measurement and Instrumentation, Vol. 45, pp.28-42 (2015).
  • H. Murakawa, E. Muramatsu, K. sugimoto, N. Takenaka, N. Furuichi "A dealiasing method for use with ultrasonic pulsed Doppler in measuring velocity profiles and flow rates in pipes", Measurement Science and Technology, Vol.26 (2015).
  • T. Shimada, R. Doihara, Y. Terao, "Investigation in to calibration performance of small volume prover for hydrocarbon flow", Flow Measurement and Instrumentation, Vol.41, pp.174-180 (2015).

2014

  • 古市 紀之, 寺尾 吉哉, "広範囲レイノルズ数における管摩擦係数の高精度計測", ながれ, Vol.33, pp. 499-502 (2014).
  • L. Cordova, N. Furuichi, T. Lederer, "Application of a novel methodfor validating the uncertainty estimation of a flow test facility",Technisches Messen, Vol.81, No.9, pp.431-441 (2014).

2013

  • 古市 紀之, Cheong KarHooi, 寺尾 吉哉, 中尾晨一, 藤田啓司, 渋谷和雄, "スロートタップ式フローノズルの流出係数特性および高レイノルズ数外挿性に関する実験的研究", 日本機械学会論文集B編, Vol.79, No.808, pp.143-154 (2013).
  • 古市 紀之, Cheong KarHooi, 寺尾 吉哉, 杉山信幸, 小川俊一郎, 吉村紀之, 田邊誠司, "水流量校正設備の広範囲流量における設備間比較", 日本機械学会論文集B編, Vol.79, No.808, pp.180-191 (2013).
  • N. Furuichi, K-H. Cheong, Y. Terao, S. Nakao, K. Fujita, K. Shibuya, "New Discharge Coefficient of ASME PTC 6 Throat Tap Nozzle for Reynolds Number from 2.4x10^5 to 1.4x10^7", Tran of ASME, Journal of Fluid Engineering , Vol.136, No.1, pp.011105 (2013).
  • N. Furuichi, "Fundamental Uncertainty Analysis of Flowrate Measurement using the Ultrasonic Doppler Velocity Profile Method", Flow Measurement and Instrumentation, Vol.33, pp.202-211 (2013).
  • S. Wada, K. Tezuka, N. Furuichi, "The effect of decreasing frequency of ultrasound on flow rate measurement using the Ultrasonic Doppler Profile method", Journal of Nuclear Science and Technology, Vol.50, No.6,pp.654-663 (2013).
  • Cheong KarHooi, 土井原 良次, 嶋田 隆司, 寺尾 吉哉, "石油小流量標準の校正能力の妥当性評価―標準設備間の比較―", 実験力学 Vol.13, No.1 (2013).

2012

  • S. Wada, K. Tezuka, N. Furuichi, "Experimental Study on Large Flow Rate Monitoring Downstream of Double Elbows using an Ultrasonic Velocity Profile Method", Journal of Power and Energy Systems, Vol.6, No.3, pp.434 -445 (2012).
  • 嶋田 隆司, 土井原 良次, 寺尾 吉哉, 高本 正樹, "減算法による液体用流量計の校正の不確かさ", 日本機械学会論文集B編, Vol.78, No.788, pp.821-836 (2012).
  • J. Man, R. Arias, Y. Terao, Y. J. Lee, G. Ligong, V. Tulasombut, T. K. Chan, N. H. Thai, R. Steyn, H. L. I. S. Sampath, "Final report on APMP key comparison of volume of liquids at 20 L and 100 mL: APMP.M.FF-K4", Metrologia, Vol.48, Technical Supplement (2012).

2010

  • T. Shimada, R. Doihara, Y. Terao, M. Takamoto, "Development of primary standard for hydrocarbon flow and traceability system of measurement in Japan - Approach to construction of an effective and reliable traceability system-", Synthesiology, Vol.3, No.1, pp.53-65 (2010).
  • T. Shimada, D. Mahadeva, R. Baker, "Further investigaion into a water flow rig related to calibration", Flow Measurement and Instrumentation, Vol. 21, No.4, pp.462 -475 (2010).
  • 嶋田 隆司, 土井原 良次, 寺尾 吉哉, 高本 正樹, "石油流量国家標準の確立とわが国の標準供給体制 -信頼性のある効率的なトレーサビリティ体系の構築への取り組み", シンセシオロジー, Vol. 3, No.1, pp.26-35 (2010).

2009

  • N. Furuichi, Y. Terao, M. Takamoto, "Actual Flow Calibration of Feedwater Flowmeter using High Reynolds Number Facility in NMIJ", Nuclear Engineering and Design, Vol. 239, No.7, pp.1304-1313 (2009).
  • N. Furuichi, K. Sato, Y. Terao, M. Takamoto, "A New Calibration Facility of Flowrate for High Reynolds Number" , Flow Measurement and Instrumentation, Vol.20-1, pp.38, No.47 (2009).

2008

  • 古市 紀之, 寺尾 吉哉, 高本 正樹, "原子力発電給水流量計校正のための高レイノルズ数実流校正設備(不確かさ評価および実流校正試験) ", 日本機械学会論文集B編, Vol.74, No.738, pp. 146-151 (2008).
  • 古市 紀之, 佐藤 浩志, 寺尾 吉哉, 高本 正樹, "原子力発電給水流量計校正のための高レイノルズ数実流校正設備(設備の概要および特性)", 日本機械学会論文集B編, Vol. 74, No.738, pp. 138-145 (2008).

2007

  • J. S. Paik, K-B. Lee, P. Lau, R. Engel, A. Loza, Y. Terao, "Michael Reader-Harris, Final report on CCM.FF-K1 for water", Metrologia Vol.44,-Tech. Supplmnt, pp.07005 (2007).
  • T. Shimada, R. Doihara, Y. Terao, M. Takamoto, "Development of hydrocarbon flow calibration facility as a national standard" , Journal of Fluid Science and Technology, Vol.2-1, pp.23, No.34 (2007).

2006

  • 佐藤 浩志, 寺尾 吉哉, 高本 正樹, 山内祐樹, 長谷川真, "原子炉用超音波流量計の測定の高精度化(第二報)--- 平面二重曲り配管と整流装置およびトランスデューサの再取付の影響--- ", 計測自動制御学会論文集, Vol.42, No.8, pp.991-993 (2006).
  • 嶋田 隆司, 土井原 良次, 寺尾 吉哉, 高本 正樹, "石油大流量校正設備の不確かさ解析(第2報 質量計測に対する不確かさ解析)", 日本機械学会論文集B編, Vol.72, No.718, pp.1551-1558 (2006).
  • R. Doihara, T. Shimada, Y. Terao, M. Takamoto, "Development of weighing tank system employing rotating double wing diverter ", Flow Measurement and Instrumentation, Vol.17, No.3, pp.141-152 (2006).
  • 佐藤 浩志, 寺尾 吉哉, 高本 正樹, 山内祐樹, 長谷川真, "原子炉用超音波流量計の測定の高精度化(第一報)---立体三重曲り配管の影響---", 計測自動制御学会論文集, Vol.42, No.3, pp.299-301 (2006).

2005

  • 嶋田 隆司, 土井原 良次, 武田 一英, 寺尾 吉哉, 高本 正樹, "石油大流量校正設備の不確かさ解析(第1報 流量計測に対する不確かさ解析)", 日本機械学会論文集B編, Vol.71, No.712, pp.2956-2963 (2005).
  • 嶋田 隆司, 土井原 良次, 寺尾 吉哉, 高本 正樹, "国家標準のための石油流量計校正設備の開発", 日本機械学会論文集B編, Vol.71, No.703, pp.854-861 (2005).
  • 土井原 良次, 寺尾 吉哉, 高本 正樹, "加速度センサを用いたコリオリ流量計の高感度化", 計測自動制御学会論文集, Vol.41, No.2, pp.174-176 (2005).

2003

  • T. Shimada, S. Oda, Y. Terao, M. Takamoto, "Development of a New Diverter System for Liquid Flow Calibration Facilities ", Flow MEasurement and Instrumentation, Vol.14, No.3, pp.89-96 (2003).

2002

  • 嶋田 隆司, 小田 慎嗣, 高本 正樹, 永井 聰, "液体流量計校正のための高精度転流器の開発", 日本機械学会論文集B編,Vol.68, No.665, pp.137-143 (2002).

解説・所報

・小野満里絵, 古市紀之, 辻義之, "高レイノルズ数円管流れにおける乱流構造-LDVによる壁面近傍乱流統計量―", ながれ, 40巻, pp. 402-405 (2021),

・古市 紀之, "高レイノルズ数実流試験設備による管摩擦係数の高精度計測", 配管技術, 60巻7号, pp. 25-30(2018).

・古市 紀之, "高レイノルズ数における流量計測", ながれ, 36巻5号, pp. 315-320(2018).

・和田 守弘, 古市 紀之, 嶋田 隆司, "UVP による流量計測の不確かさ評価研究", 可視化情報, Vol.36, No.142, pp.21-25 (2016).

・嶋田 隆司, "流量・体積(バレル・ガロン)の話", ペトロテック, Vol.36, No.5, pp.387-390 (2013).

・嶋田 隆司, 土井原 良次, 寺尾 吉哉, "体積管式校正装置を用いた石油用流量計校正の不確かさ解析", AIST Bulletin of Metrology, Vol.8, No.4 (2013) .

・寺尾 吉哉, 石橋 雅裕, "40周年記念号によせて", 計測技術, Vol.41-5, pp.1-5 (2013).

・杉山, 山口, 鈴木, 古市 紀之, "水用流量計校正のJCSS(ISO/IEC 17025)登録", 株式会社 山武 論文誌 “Azbil Technical Review“, pp.26-39 (2012).

・寺尾 吉哉, 森岡 敏博, 石橋 雅裕, 古市 紀之, 嶋田 隆司, 栗原 昇, "流量計測分野における達成点と今後", 計測標準と計量管理, Vol.61, No.1, pp.2-11 (2011).

・Cheong KarHooi, "石油小流量標準の整備-校正流量範囲の下限拡大を目指して" , 産総研TODAY(2011年1月号), (2011).

・古谷 博秀, 後藤 新一, 貝塚 昌芳, 広津 敏博, 高本 正樹, 土井原 良次, 嶋田 隆司, 岩田 光夫, "NEDOによるバイオマスエネルギー等高効率転換技術開発 バイオ燃料の品質規格及び計量標準に関する研究開発", クリーンエネルギー, Vol.20, No.1, pp.14-19 (2011).

・Cheong KarHooi, "微小液体流量計測の現状と将来展望", 産総研計量標準報告, Vol.8, No.1 (2010).

・嶋田 隆司, 土井原 良次, 武田 一英, 寺尾 吉哉, 高本 正樹, "超音波流量計と容積流量計による石油大流量国家標準設備と国内校正設備との比較実験", AIST Bulletin of Metrology, Vol.5, No.4 (2007).

・寺尾 吉哉, "石油流量の国家標準 <石油流量のトレーサビリティの確立を目指して>" 計測技術, Vol.34, No.5, pp.1-4 (2006).

・嶋田 隆司, 土井原 良次, 武田 一英, 寺尾 吉哉, 高本 正樹, "タービン流量計とコリオリ流量計による石油大流量国家標準設備と国内校正設備との比較実験", AIST Bulletin of Metrology, Vol.4, No.4 (2006).

・寺尾 吉哉, "流量測定の不確かさ -ISO 5168の概要と解説-" , はかる, Vol.22, No.3, pp.10-13 (2006).

・嶋田 隆司, 土井原 良次, 武田 一英, 寺尾 吉哉, 高本 正樹, "タービン流量計による石油大流量校正設備と国内校正設備との比較実験" , AIST Bulletin of Metrology, Vol.4, No.1 (2005).

・古市 紀之, "発電用原子炉の出力増強と実流校正設備に関する調査研究", 産総研計量標準報告, Vol.3, No.4, pp.569-586 (2005).

・寺尾 吉哉, "流量・流速の測定法と計測標準", 計量管理, Vol.54, No.1, pp.25-31 (2004).

・寺尾 吉哉, "実流校正が不要な標準渦流量計", 月刊計測技, Vol.30, No.11, pp.23-27 (2002).

・嶋田 隆司, "石油大流量校正設備", AIST TODAY, Vol.2, No.7, pp.32-32 (2002).

・土井原 良次, "コリオリ式流量計の現状調査と高精度化の提案 -石油流量計校正用ワーキングスタンダードに関する調査研究", 産総研計量標準報告, Vol.1, No.2, pp.443-457 (2002).

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