Zobrazeno 1 - 10
of 11
pro vyhledávání: '"Giteshkumar Patel"'
Publikováno v:
Nuclear Engineering and Design. 405:112197
Autor:
Colombo, Marco ⁎, Fairweather, M. ⁎, Walker, Simon P., Kumar, Mukesh, Moharana, Avinash, Nayak, Arun K., Joshi, Jyeshtharaj B., Dasgupta, Arnab, Chandraker, Dinesh K., Vesa, Tanskanen, Giteshkumar, Patel
Publikováno v:
In Advances of Computational Fluid Dynamics in Nuclear Reactor Design and Safety Assessment 2019:239-335
Publikováno v:
Nuclear Engineering and Design. 321:328-342
The pressure suppression pool of boiling water reactor as a safety system has vital importance from the nuclear reactor safety point of view and it is an interesting challenge for numerical simulations of flow with rapid phase change. This paper pres
Publikováno v:
International Journal of Heat and Mass Transfer. 88:165-180
The accurate analysis of a condensing flow plays an important role in the development of high-efficiency steam turbines. This paper presents an investigation of turbulence modelling influence on non-equilibrium condensing steam flows in a Laval nozzl
Publikováno v:
Volume 8: Microturbines, Turbochargers and Small Turbomachines; Steam Turbines.
The expansion of steam flow and the condensation phenomena in an LP turbine depend on both the flow passage shape and the operating conditions. This paper presents the quantification of the influence of local geometrical details of the steam turbine
Publikováno v:
Volume 8: Microturbines, Turbochargers and Small Turbomachines; Steam Turbines.
With the tremendous role played by steam turbines in power generation cycle, it is essential to understand the flow field of condensing steam flow in a steam turbine to design an energy efficient turbine because condensation at low pressure (LP) turb
Publikováno v:
Nuclear Engineering and Design. 327:299
Publikováno v:
Volume 8: Microturbines, Turbochargers and Small Turbomachines; Steam Turbines.
The paper describes the influence of trailing edge geometries on the non-equilibrium homogeneously condensing steam flow in the stationary cascade of turbine blades. The computational fluid dynamics (CFD) simulations were performed with the ANSYS Flu
Autor:
Aufiero, Manuele, Bhusare, Vishal, Chandraker, Dinesh K., Colombo, Marco, Dasgupta, Arnab, Du Toit, Charl G., Fairweather, M., Fratoni, Massimiliano, Ganju, Sunil, Gera, Bhuvaneshwar, Giteshkumar, Patel, Goyal, Priyanshu, Gumulya, Monica, Höhne, Thomas, Joshi, Jyeshtharaj B., Karanam, Aditya, Kulkarni, Ameya, Kulkarni, Parimal P., Kumar, Ankur, Kumar, Mukesh, Lote, Dhiraj, Mali, Chaitanya, Minocha, Nitin, Mishra, Shubham, Moharana, Avinash, Nandakumar, Krishnaswamy, Nayak, Arun K., Pal, Eshita, Pandey, Pradeep, Pareek, Vishnu, Patwardhan, Ashwin W., Prasad, Sumit V., Rousseau, Pieter G., Sabharwall, Piyush, Saha, Nandan, Sharma, Pavan K., Shelke, Ashish V., Tamhankar, Sarang, Tiwari, Shashank, Van Antwerpen, Herman J., Velusamy, Karuppanna, Vesa, Tanskanen, Walker, Simon P., Wu, Chunliang
Publikováno v:
In Advances of Computational Fluid Dynamics in Nuclear Reactor Design and Safety Assessment 2019:xi-xiii
Publikováno v:
Volume 1B: Marine; Microturbines, Turbochargers and Small Turbomachines; Steam Turbines.
Understanding the condensation process at the low-pressure (LP) turbine is important because condensation introduces extra losses, and erosion caused by the droplets wear turbine blades. The paper presents an investigation of the turbulence modelling