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REFERENCE LINKING PLATFORM OF KOREA S&T JOURNALS
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International Journal of Fluid Machinery and Systems
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Journal DOI :
Korean Fluid Machinery Association
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Volume & Issues
Volume 8, Issue 4 - Dec 2015
Volume 8, Issue 3 - Sep 2015
Volume 8, Issue 2 - Jun 2015
Volume 8, Issue 1 - Mar 2015
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Improvement of Two-Stage Centrifugal Blood Pump for Cardiopulmonary Support System and Evaluation of Anti-Hemolysis Performance
Horiguchi, Hironori ; Tsukiya, Tomonori ; Takemika, Toratarou ; Nomoto, Takeshi ; Tsujimoto, Yoshinobu ;
International Journal of Fluid Machinery and Systems, volume 8, issue 1, 2015, Pages 1~12
DOI : 10.5293/IJFMS.2015.8.1.001
In cardiopulmonary support systems with a membrane oxygenation such as a percutaneous cardiopulmonary support (PCPS) or an extracorporeal membrane oxygenation (ECMO), blood pumps need to generate the pressure rise of approximately 200mmHg or higher, due to the high hydraulic resistances of the membrane oxygenation and of the cannula tubing. In order to realize the blood pump with higher pressure rise, higher anti-hemolysis and thrombosis performances, the development of novel centrifugal blood pump composed of two-stage has been conducted by the authors. In the present paper, effective attempts to decrease the wall shear stress and to suppress the stagnation are introduced for the prevention of hemolysis and thrombosis in blood pumps. The hemolysis test was also carried out and it was clarified that the decrease of wall shear stress is effective as a guideline of design of blood pumps for improving the anti-hemolysis performance.
Performance Evaluation of a Variable Frequency Heat Pump Air Conditioning System for Electric Bus
Peng, Qinghong ; Du, Qungui ;
International Journal of Fluid Machinery and Systems, volume 8, issue 1, 2015, Pages 13~22
DOI : 10.5293/IJFMS.2015.8.1.013
This study presents a simulation model of a heat pump air conditioning system with a variable capacity compressor and variable speeds fans for electric bus. An experimental sample has been developed in order to check results from the model. Effects on system performance of such working conditions as compressor speed, evaporator fans speeds and the condenser fans speeds have been simulated by means of developed model. The results show that the three speeds can be adjusted simultaneously according to actual working condition so that the AC system can operate under the optimum state which the control objects want to achieve. It would be a good and simple solution to extend the driving ranges of EVs because of the highest efficiency and the lowest energy consumption of AC system.
Rotordynamic Performance Measurements of An Oil-Free Turbocharger Supported on Gas Foil Bearings and Their Comparisons to Floating Ring Bearings
Lee, Yong-Bok ; Park, Dong-Jin ; Sim, Kyuho ;
International Journal of Fluid Machinery and Systems, volume 8, issue 1, 2015, Pages 23~35
DOI : 10.5293/IJFMS.2015.8.1.023
This paper presents the rotordynamic performance measurement of oil-free turbocharger (TC) supported on gas foil bearings (GFBs) for 2 liter class diesel vehicles and comparison to floating ring bearings (FRBs). Oil-free TC was designed and developed via the rotordynamic analyses using dynamic force coefficients from GFB analyses. The rotordynamics and performance of the oil-free TC was measured up to 85 krpm while being driven by a diesel vehicle engine, and compared to a commercial oil-lubricated TC supported on FRBs. The test results showed that the GFBs increased the rotor speed by ~ 20% at engine speeds of 1,500 rpm and 1,750 rpm, yielding the reduction of turbine input energy by more than 400 W. Incidentally, an external shock test on the oil-free TC casing was conducted at the rotor speed of 60 krpm, and showed a good capability of vibration damping due to the well-known dry friction mechanism of the GFBs.
Numerical Analysis of Centrifugal Impeller for Different Viscous Liquids
Bellary, Sayed Ahmed Imran ; Samad, Abdus ;
International Journal of Fluid Machinery and Systems, volume 8, issue 1, 2015, Pages 36~45
DOI : 10.5293/IJFMS.2015.8.1.036
Oil and gas industry pumps viscous fluids and investigation of flow physics is important to understand the machine behavior to deliver such fluids. 3D numerical flow simulation and analysis for different viscous fluids at different rotational speeds of a centrifugal impeller have been reported in this paper. Reynolds-averaged Navier Stokes (RANS) equations were solved and the performance analysis was made. Standard two equation k-
model was used for the turbulence closure of steady incompressible flow. An inlet recirculation and reverse flow in impeller passage was observed at low impeller speeds. It was also found that the higher viscosity fluids have higher recirculation which hinders the impeller performance.
Hydrodynamic Design of Thrust Ring Pump for Large Hydro Turbine Generator Units
Lai, Xide ; Zhang, Xiang ; Chen, Xiaoming ; Yang, Shifu ;
International Journal of Fluid Machinery and Systems, volume 8, issue 1, 2015, Pages 46~54
DOI : 10.5293/IJFMS.2015.8.1.046
Thrust-ring-pump is a kind of extreme-low specific speed centrifugal pump with special structure as numerous restrictions from thrust bearing and operation conditions of hydro-generator units. Because the oil circulatory and cooling system with thrust-ring-pump has a lot of advantages in maintenance and compactness in structure, it has widely been used in large and medium-sized hydro-generator units. Since the diameter and the speed of the thrust ring is limited by the generator set, the matching relationship between the flow passage inside the thrust ring (equivalent to impeller) and oil bath (equivalent to volute) has great influence on hydrodynamic performance of thrust-ring-pump. On another hand, the head and flow rate are varying with the operation conditions of hydro-generator units and the oil circulatory and cooling system. As so far, the empirical calculation method is employed during the actual engineering design, in order to guarantee the operating performance of the oil circulatory and cooling system with thrust-ring-pump at different conditions, a collaborative hydrodynamic design and optimization is purposed in this paper. Firstly, the head and flow rate at different conditions are decided by 1D flow numerical simulation of the oil circulatory and cooling system. Secondly, the flow passages of thrust-ring-pump are empirically designed under the restrictions of diameter and the speed of the thrust ring according to the head and flow rate from the simulation. Thirdly, the flow passage geometry matching optimization between thrust ring and oil bath is implemented by means of 3D flow simulation and performance prediction. Then, the pumps and the oil circulatory and cooling system are collaborative hydrodynamic optimized with predicted head-flow rate curve and the efficiency-flow rate curve of thrust-ring-pump. The presented methodology has been adopted by DFEM in design process of thrust-ring-pump and it shown can effectively improve the performance of whole system.
Case studies for solving the Saint-Venant equations using the method of characteristics: pipeline hydraulic transients and discharge propagation
Barros, Regina Mambeli ; Filho, Geraldo Lucio Tiago ; dos Santos, Ivan Felipe Silva ; da Silva, Fernando das Gracas Braga ;
International Journal of Fluid Machinery and Systems, volume 8, issue 1, 2015, Pages 55~62
DOI : 10.5293/IJFMS.2015.8.1.055
This study aims to present a hydraulic transitory study as MOC applications for solving the Saint-Venant equations in two case studies: 1) in a penstock of a small hydropower system as a simple pipeline in the case of valve-closure in the downstream boundary with a reservoir in the upstream boundary; and 2) for discharge propagation into a channel by velocity and depth of the flow channel along space evaluation. The proposed methodology by Chaudry  concerning the development of hydrodynamic models was used. The obtained results for first and second case study has been confirmed that MOC numerical approach is useful for several engineering purposes, including cases of hydraulic transients and discharge propagation in hydraulic systems.