참고문헌
- Etherington C., 1984, 'Power Fluidics Technology and its Application in the Nuclear Industry,' Nucl. Energy, Vol. 24, No.4, pp. 227-235
- 한국원자력학회, 1997, '차세대원자로 WorkShop.'
- 김영인 외 4인, 1996, '축압기 유량조절용 Vortex 밸브의 유동 특성.' 한국원자력학회 96년도 춘계학술발표회 논문집, pp. 17-22
- 심윤섭 외 4인, 1995, 'Vortex Valve 개념 검토 및 작동 특성 분석,' KAERI/TR-611/95, 한국원자력 연구소
- Shiraishi T. et al., 1994, 'Characteristics of the Flow Controlled Accumulator,' Nuclear Technology, Vol. 108, pp. 181-190
- Shiraishi T.,Watakabe H., Nakamori N., Tabuchi Y., Takayama Y. and Sugizaki T., 1993, 'Development of the Flow Controlled Accumulator,' Mitsubishi Heavy Industry & Mitsubishi Atomic Power Industries
- Forsberg C. W., 1986, 'A Process Inherent Ultimate Safety Boiling Water Reactor,' Nuclear Technology, Vol. 72, pp. 121-134
- Forsberg C. W., 1987, 'Passive Emergency Cooling Systems for Boiling Water Reactors (PECOS-BWR),' Nuclear Technology, Vol. 76, pp. 185-192
- Wormley D. N., 1970, 'A Design Basis for Vortex Type Fluid Amplifiers Operating in the Incompressible Flow Regime,' J. of Basic Engineering, Vol. 92, pp. 369-376
- Wormley D. N., 1969, 'An Analytical Model for the Incompressible Flow in Short Vortex Chambers,' J. of Basic Engineering, Vol. 91, pp. 264-276
- Lawley T. J., 1970, 'Vortex Fluid Amplifier: An Experimental Study of Flow Characteristics and Internal Flow Field,' Ph. D thesis, Southern Methodist University
- Moyer, 1967, 'Large Single Vortex Valve Analysis,' proc. of the 1967 Fluidics Symp., Chicago, May 9-11, pp. 233 -250
- Bichara R.T., Orner P.A., 1969,. 'Analysis and Modeling of the Vortex Amplifier,' J. of Basic Eng., Vol. 91, pp. 755-250
- Idelchik I. E.,1986, Handbook of Hydraulic Resistance, 2nd Ed. Hemisphere Publishing Co.