EURELITE AMR — Gen-IV AI-Native Modular High-Temperature Gas-Cooled Reactor

Defining the Future of Nuclear: Inherently Safe, AI-Native, Modular.

Product Overview

The EURELITE AMR series is the culmination of Eurelite's self-developed Generation IV nuclear energy systems, based on the High-Temperature Gas-cooled Reactor (HTGR) technology route. It is not just a nuclear power plant, but a standardized industrial energy module—creating a revolutionary product that combines safety, economy, and flexibility through AI-native design and 70 years of accumulated French nuclear technology.

Key Technical Features

Inherently Safe Design

Uses chemically inert helium as coolant combined with Tristructural Isotropic (TRISO) fuel to achieve absolute safety at the physical principle level.

Modular Manufacturing

Core components are prefabricated in factories, transported via standard methods, and rapidly assembled on-site, shortening construction cycles and improving quality consistency.

Flexible Deployment

Single module can operate independently or multiple modules can be paralleled for expansion, adapting to different needs from off-grid to on-grid, and from industrial parks to cities.

High-Temperature Output

Capable of providing 700°C-class high-quality heat sources, balancing efficient power generation with industrial decarbonization process heat.

Efficient Fuel & Long Cycle

Supports a continuous operation engineering target of 3–5 years per fueling, reducing O&M disturbances and resupply frequency.

AI-Native Full Lifecycle

AI is integrated throughout concept design, simulation optimization, engineering construction, operation monitoring, and intelligent control, improving iteration efficiency and operational controllability.

Two Core Product Lines

Type-I AMR — 10MW Module

Flexible Distributed Energy Solution

Technical Parameters:

10 MW
Unit Power
750°C
Outlet Temperature
3-5 Years
Operating cycle per fueling
6 Months
Construction cycle for subsequent units
(Standard container design, supports road/rail/air transportation)

Application Scenarios:

  • AI Data Center Power Supply: 7×24 hours stable zero-carbon electricity.
  • Remote Area Microgrid: Off-grid power supply, eliminating fuel transportation dependence.
  • Industrial Park Process Heat: 750°C high-temperature process heat, replacing fossil fuels.
  • Hydrogen Production & Desalination: High-temperature process heat for direct hydrogen production and desalination.
  • Field Operations/Deep Space: Long-term energy guarantee, rapid deployment/withdrawal.

Type-II AMR — 170MW Module

Optimal Solution for Urban and Industrial Baseload Power

Technical Parameters:

170 MW
Unit Power
750°C
Outlet Temperature
2 Years
Construction cycle for subsequent units
(3 years for first unit)
300,000 Pop.
Energy supply capacity meets basic electricity demand for cities of this size.

Application Scenarios:

  • Urban Power & Heating: Replace coal-fired units, realizing urban zero-carbon energy supply.
  • Large Industrial Zone Poly-generation: Combined Cooling, Heating, Power, and Hydrogen (CCHP-H), energy utilization rate >50%.
  • Replace Traditional Coal-Fired Units: Single unit reduces carbon emissions by 3.64 million tons per year.
  • Island Comprehensive Energy Solution: One-stop solution for electricity, heat, water, and hydrogen needs.