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Ammonia turbomachinery design considerations for the direct cycle nuclear gas turbine waste heat power plant

Conference ·
DOI:https://doi.org/10.1115/77-GT-75· OSTI ID:7302751
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This paper describes the turbomachinery design considerations for a supercritical Rankine cycle waste heat power conversion system for use with the large closed-cycle helium gas turbine nuclear power plant under development by General Atomic Company. The conceptual designs of the ammonia turbine and pump are presented. The high-density working fluid in the ammonia turbine results in small blade heights and high hub-to-tip ratios due to a combination of the properties of ammonia and the high degree of pressurization, particularly at the turbine exit. With the molecular weight of the ammonia working fluid being very similar to steam, the double-flow, multistage axial ammonia turbine bears a strong resemblance to modern steam turbines. Conceptual design work has been done in sufficient detail to support component cost estimates for balance of plant economic studies. While an extensive design program is needed for the ammonia turbine, existing technology from the power generating and chemical process industries is generally applicable; and with specialized design attention, the goal of high turbine efficiency should be realizable. The design studies have been specifically directed toward a closed-cycle helium gas turbine nuclear plant (GT-HTGR); however, it is postulated that the turbine design considerations presented could be applicable to other low-temperature power conversion systems, such as geothermal or industrial waste heat applications.

Research Organization:
General Atomic Co., San Diego, CA (USA)
DOE Contract Number:
EY-76-C-03-0167-046
OSTI ID:
7302751
Report Number(s):
GA-A-14171; CONF-770317-2
Country of Publication:
United States
Language:
English

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Related Subjects

21 SPECIFIC NUCLEAR REACTORS AND ASSOCIATED PLANTS
210300* -- Power Reactors
Nonbreeding
Graphite Moderated
AMMONIA
DESIGN
GAS COOLED REACTORS
GAS TURBINES
GRAPHITE MODERATED REACTORS
HTGR TYPE REACTORS
HYDRIDES
HYDROGEN COMPOUNDS
NITROGEN COMPOUNDS
NITROGEN HYDRIDES
RANKINE CYCLE POWER SYSTEMS
REACTORS
TURBINES
TURBOMACHINERY
WASTE HEAT UTILIZATION
WASTE PRODUCT UTILIZATION