Company: NKLR
Filing Date: 2025-11-10
Form Type: S-1
Source: 0001213900-25-108246
Chunk: 107

Company: Terra Innovatum Global N.V.
Filing Date: 2025-11-10
Form: S-1
Chunk 107
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 reliable power and the production of radioisotopes for medical applications such as cancer treatment and diagnostics,
bringing these capabilities to facilities that might otherwise lack access to such resources.

Underserved Communities

Remote locations, islands, and communities
with limited grid access traditionally rely on expensive, polluting diesel generation. SOLO reactors offer transformative energy solutions
for these markets, providing stable electricity at predictable costs for basic needs, agricultural irrigation and water desalination.
By eliminating dependence on diesel fuel logistics, price fluctuations and negative environmental impacts, our technology can enable
sustainable energy independence and economic development in underserved regions.

Our Technology

Electricity and Thermal Capacity

SOLO outputs 1MW electric produced by transforming
4MW of heat powered by the same type of LEU fuel that powers most nuclear facilities in the world today.

Overall Dimensions

The reactor is compact with overall dimensions
of approximately 6.5m in height, a square cross section of 2.4 m and weighing 60 metric tons in total (reactor core is less than 20 metric
tons). SOLO can be assembled in many existing nuclear manufacturing facilities and can be easily transported on most U.S. and European
highways.

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Fuel

SOLO can use today’s technologies but
is compatible with future technologies without having to make any significant changes to the design.

SOLO provides the only platform to be able
to transition from currently licensed fuel products (LEU) to future fuel products and supply (HALEU):

| ● | LEU:    SOLO                                         
 can operate for ~15 years without need for refueling |

| ● | HALEU:    SOLO                                                                      
 can operate for ~70 years without need for refueling. As of today, certain non-fuel 
 materials would need to be replaced at ~45 years                                    |

| (1) | Based on the neutronics analysis, with                                                          
 the use of HALEU, SOLO could either (i) operate at a large power output of 20MWt for            
 15-years, or (ii) operate at the same power output of 4MWt for ~70 years. Increasing            
 the power output, however, would require a change to the design of the reactor, while operating 
 at the same power for a longer period of time would not require such design changes.            |

SOLO can also benefit from current and future
accident tolerant fuel (ATF) solutions related to new clad material