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Overview of the high-temperature gas-cooled reactor technology
Jari Tuunanen, Saku Latokartano
VTT Technical Research Centre of Finland
Research output
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Book/Report
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Report
Overview
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INIS
accidents
14%
brayton cycle
28%
burns
14%
burnup
14%
construction
28%
cost
57%
cost benefit analysis
14%
cycles (thermodynamic)
14%
design
14%
efficiency
28%
energy
28%
fuels
14%
gas turbines
28%
gases
100%
germany
14%
heat production
14%
helium
14%
high temperature
85%
htgr type reactors
100%
investment
14%
market
14%
nuclear reactors
85%
plutonium
14%
power
42%
power generation
14%
power plants
28%
power production
14%
production
14%
reactor technology
100%
reactors
85%
russian federation
14%
safety
42%
safety engineering
14%
size
28%
steam generators
14%
testing
14%
thermodynamics
14%
tubes
14%
units
28%
Keyphrases
Ance
14%
Brayton Cycle
14%
Closed Brayton Cycle
14%
Combined Heat
14%
Combined Power
14%
Construction Activities
14%
Construction Period
14%
Conventional Power Plants
14%
Cost Savings
28%
Cost-benefit
14%
Development Work
28%
Directed Cycle
14%
Discharge Burnup
14%
Electrical Energy Production
14%
Engineering Safety
14%
European Energy Market
14%
Gas Turbine Technology
14%
Gas Turbine-Modular Helium Reactor
14%
Gas-fired Power Plant
14%
General Atomics
14%
Germany
14%
Heat Production
14%
High Discharge
14%
High-temperature Reactor
100%
Inherent Safety Features
42%
International Projects
14%
Investment Cost
14%
Main Concepts
14%
Material Cost
14%
Media Power
14%
Military
14%
Modular Design
14%
Nuclear Reactor Technology
14%
Pebble Bed Modular Reactor
14%
Plutonium
14%
Power Cycle
14%
Power Generation
14%
Power Production
14%
Production Unit
14%
Prototype Reactor
14%
Rankine
14%
Reactor
42%
Reactor Technology
100%
Relevant Alternatives
14%
Safety System
14%
Shareholder Proposals
14%
Small Countries
14%
South African
14%
Steam Generator Tube
14%
Thermal Energy Production
14%
Thermodynamic System
14%
Thermodynamics
14%
US Energy Markets
14%
Engineering
Additional Cost
40%
Burnup
20%
Closed Brayton Cycle
20%
Combined Power and Heat Production
20%
Construction Activity
20%
Conventional Power Plant
20%
Cooled Nuclear Reactor
20%
Electrical Energy
20%
Energy Market
20%
Energy Production
20%
Fired Power Plant
20%
Gas Cooled Reactor
100%
Gas Turbine
40%
General Atomic
20%
Germany
20%
High Temperature Gas Reactors
100%
Inherent Safety
60%
Investment Cost
20%
Material Cost
20%
Modular Design
20%
Modular Helium Reactor
20%
Pebble Bed Modular Reactors
20%
Power Cycle
20%
Power Generation
20%
Production Unit
20%
Rankine
20%
Reactor Technology
100%
Safety Feature
60%
Steam Generator Tube
20%
System Safety Engineering
20%
Thermal Energy
20%
Thermodynamic System
20%
Chemical Engineering
Brayton Cycle
100%
Reactor Technology
100%