Albert J. Juhasz scite author profile

An overall system analysis approach is used to propose potential conceptual designs of advanced terrestrial nuclear power plants based on Oak Ridge National Laboratory (ORNL) Molten Salt Reactor (XISR) experience and utilizing Closed Cycle Gas Turbine (CCGT) thermal-to-electric energy conversion technology. In particular conceptual designs for an advanced 1 GWe power plant with turbine reheat and compressor intercooling at a 950 K turbine inlet temperature (TIT), as well as near term 100 1VIWe demonstration plants with TITS of 950 K and 1200 K are presented. Power plant performance data were obtained for TITS ranging from 650 to 1300 K by use of a Closed Brayton Cycle (CB(:') systems code which considered the interaction between major sub -systems, including the Liquid Fluoride Thorium Reactor (LFTR), heat source and heat sink heat exchangers, turbo -generator machinery, and an electric power generation and transmission system. Optional off-shore submarine installation of the power plant is a major consideration.

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Closed Brayton cycle power system with a high temperature pellet bed reactor heat source for NEP applications

Juhasz

El‐Genk²,

Harper³

1993

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Capitalizing on past and future development of high temperature gas reactor (HTGR) technology, a low mass 15 MWe closed gas turbine cycle power system using a pellet bed reactor heating helium working fluid is proposed for Nuclear Electric Propulsion (NEP) applications. Although the design of this directly coupled system architecture, comprising the reactor/power system/space radiator subsystems, is presented in conceptual form, sufficient detail is included to permit an assessment of overall system performance and mass. Furthermore, an attempt is made to show how tailoring of the main subsystem design characteristics can be utilized to achieve synergistic system level advantages that can lead to improved reliability and enhanced system life while reducing the number of parasitic load driven peripheral subsytems.

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A PCM/Forced Convection Conjugate Transient Analysis of Energy Storage Systems With Annular and Countercurrent Flows

Cao

Faghri

Juhasz

1991

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Latent heat energy storage systems with both annular and countercurrent flows are modeled numerically. The change of phase of the phase-change material (PCM) and the transient forced convective heat transfer for the transfer fluid are solved simultaneously as a conjugate problem. A parametric study and a system optimization are conducted. It is found that the energy storage system with the counter-current flow is an efficient way to absorb heat energy in a short period for pulsed power load space applications.

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Realizing "2001: A Space Odyssey": Piloted Spherical Torus Nuclear Fusion Propulsion

Williams

Dudzinski

Borowski

et al. 2002

Journal of Spacecraft and Rockets

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Albert J. Juhasz

A spherical torus nuclear fusion reactor space propulsion vehicle concept for fast interplanetary travel

High Efficiency Nuclear Power Plants Using Liquid Fluoride Thorium Reactor Technology

Closed Brayton cycle power system with a high temperature pellet bed reactor heat source for NEP applications

A PCM/Forced Convection Conjugate Transient Analysis of Energy Storage Systems With Annular and Countercurrent Flows

Realizing "2001: A Space Odyssey": Piloted Spherical Torus Nuclear Fusion Propulsion

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