Publications

 

Journals, Special Issues With review (j-No.)

and Proceedings, Contributions With review(p-No.)

and Reports Without review(r-No.)

 

2011

1(j-1): 中澤嵩，水面に固定された小型ファンが誘起する流れの遷移解析，日本応用数理学会論文誌 21巻，1号，59-71（2011）

 

2012

2(j-2):中澤嵩，水面に固定された小型ファンが誘起する鉛直方向循環流の線形安定性解析，日本応用数理学会論文誌 21巻，4号，309-322（2012）

 

3(j-3):中澤嵩，回転する上面盤によって誘起された流れ場における周方向に波数分解された擾乱の線形安定性，日本応用数理学会論文誌 22巻，2号，47-62（2012）

 

2015

4(j-4): 中澤嵩，佐野吉彦，百武徹，田上大助，片峰英次，畔上秀幸，柳瀬眞一郎，鵜川豊世武, 低侵襲性人工血管の開発,RIMS講究録別冊「トポロジー最適化理論とその現実問題への応用」,2015.

 

5(j-5):T. Nakazawa, Eiji Katamine, Akiyasu Tomoeda, Hideyuki Azegami，An application of shape optimization method to a room design based on an　incompressible fluid model, RIMS講究録別冊「トポロジー最適化理論とその現実問題への応用」,2015.

 

6(j-6):T. Nakazawa, Increasing the Critical Reynolds number by maximizing dissipation energy problem, Shpringer in Physics(Proc. of ICJWSF2015), Editor Antonio Segalini, Chapter 75 (2016)

 

7(p-1):T. Nakazawa, Shape Optimization of the maximizing problem of the dissipation energy and its effect on Hydrodynamic stability, the 15th European Turbulence Conference 2015, Proceedings, 477,Amsterdam, Netherland, 2015.

 

8(j-7):T. Nakazawa, H. Azegami, Shape Optimization Method improving Hydrodynamic Stability", Japan Journal of Industry and Applied Mathematics, 33, pp. 167-181, 2015.

 

2016

9(j-8):T. Nakazawa, The two step shape optimization algorithm improving Hydrodynamics Stability, Proceedings of ECCOMAS Congres 2016, 4881, 2016.

  

10(p-2):T. Nakazawa, Shape optimization problems of flow fields considering the non linear disturbances, Proceedings of ACSMO 2016, 3A2-4, 2016.

 

11(p-3):T. Nakazawa, T. Ugawa, Shape Optimization on Hagen Poiseuille flow with Stenosis, Proceedings of  ICFD Sendai 2016, 5009-1, 2016.

 

12(p-4):T. Nakazawa, Shape Optimization using POD for flow stability, Proceedings of ICFD Sendai 2016, 5009-2, 2016.

 

13(r-1):T. Nakazawa, Shape Optimization Problem Improving Hydrodynamics Stability on the Non Stationary Navier-Stokes Problem, Report of SENAC, 2016.

 

2017

14(p-5):T. Nakazawa, Theory and Simulation for Shape Optimization Suppressing Time Periodic Flow, Proceedings of ICFD Sendai 2017, TBA, 2017.

 

15(p-6):T. Nakazawa, Shape Optimization of Flow Fields considering POD, Proceedings of ICJWSF2017, TBA, 2017.

 

2018

 

2019

16(j-9):T. Nakazawa, Flow Control by the fusion between mathematical and data science, JAXA Special Publication, JAXA-SP-18-005, pp. 131-134, 2019

 

17(j-10):T. Nakazawa, Shape Optimal Problem based on the sensitivity evaluated by the Generalized J Integral considering RANS and Snapshot POD, JFST, Vol. 14, Issue 3, pp. JFST0015, 2019.

 

18(j-11):T. Nakazawa and C. Nakajima, Optimal Design by Adaptive Mesh Refinement on Shape Optimization on Flow Fields considering Proper Orthogonal Decomposition, IIS, Vol.25, pp.147-160, 2019.

 

19(j-12):T. Nakazawa, Generarized Shape Optimization with Snapshot POD, 土木学会論文集A2(応用力学)，Vol. 75, pp.135-143, 2019.

 

2020

20(j-13):T. Nakazawa, Shape Optimization of Flow Fields considering Proper Orthogonal Decomposition, Math. Anal. of Cont. Mech. and Insust. Appl. Ⅲ, pp.125-145,2020

 

21(j-14):T. Nakazawa, Comparisons of Shape Optimization Problem Considering Reynolds Average Navier-Stokes equation and Snapshot Proper Orthogonal Decomposition, Proc. of WCSMO, 2020. (in print)

  

22(r-2): T. Nakazawa, M. Harada, N. Obata and K. Kambara, Numerical Fluid Simulation for Wind Analysis in Base Ball Stadium, SENAC, Vol. 53, No. 4, 2020.

 

2021

 23(j-15):T. Nakazawa, N. Obata, M. Harada and K. Kambara, A method for embedding geometrical shape extracted from photographs and wind simulation, TBA. (in preparation)     

 

24(j-16):T. Nakazawa, T. Misaka, C. Poignard, Shape Optimization for Suppressing Coherent Structure of Two-dimensional Open Cavity Flow, JFST, Vol. 16, Issue 1, pp. JFST0002, 2021.

 

25(j-17):T. Nakazawa, Shape Optimization Problemd for Tansient Non-Newtonian fluid in Hybritized Discontinuous Galerkin Method, JFST, Vol. 16, Issue 3, pp. JFST0019, 2021.

 

26(j-18):K. Ando, H. Kang, Y. Miyanishi, T. Nakazawa, Surface Loacalization of Plasmos in Three dimensions and Convexity, SIAM Journal on Applied Mathematics, Vol. 81, No. 3, pp.1020-1033, 2021.

 

27(j-19):Y. Sano, T. Ugawa, A. Takeda, T. Hyakutake, T. Nakazawa, S. Yanase and H.  Shigemitsu, Hydrodynamic approach for revealing venous anastomotic stenosis formation within a dialysis arteriovenous graft, American Society for Artificial Internal Organs, doi: 10.1097/MAT.0000000000001459