NEU HORIZONS URANIUM
Transforming Sweden’s uranium potential into clean energy solutions.
NEU HORIZONS AIMING TO UNLOCK THE POTENTIAL OF SWEDEN’S EXTENSIVE URANIUM RESOURCES
Neu Horizons primary objective is to delineate and develop a Tier 1 sized uranium deposit over their flagship Vilhelmina shale-hosted uranium project using modern exploration methods. The Vilhelmina project also benefits from high quantities of valuable critical and battery metals, such as REE’s, vanadium, nickel and cobalt.
In addition, Neu Horizons is advancing exploration over their Ravenberget and Gillberget shear-hosted uranium projects, which are associated with high-grade uranium outcrop and boulder mineralisation discovered by the SGU in the 70’s and 80’s.
These strategic projects align Neu Horizons with the global demand for clean, sustainable and low-carbon energy, by taking advantage of Sweden’s rich uranium resources and supportive mining legislation.
SWEDISH PROJECTS
Our flagship Vilhelmina shale-hosted uranium project is situated in north-central Sweden, spanning over 42,000 hectares across Jämtland and Västerbotten Counties. This project has a history of extensive drilling and significant uranium deposits.
An opportunity to develop a global scale polymetallic orebody to supply a suite of battery and energy minerals. Gillberget offers a significant opportunity to contribute to decarbonisation goals.
Located within a major NNE-trending deformation zone, the Ravenberget Project has multiple unresolved uranium boulder trains and historical outcropping uranium mineralisation.
Our flagship Vilhelmina shale-hosted uranium project is located in the heart of Sweden’s Alum Shale uranium district. The project has the potential to host multiple Tier 1 deposits of uranium and associated critical and battery metals needed to fuel the green energy revolution.
The Ravenberget shear-hosted uranium project is located in the heart of the historical Arjeplog-Arvidsjaur-Sorsele shear-hosted uranium district where sampling by the SGU during the 1970’s discovered multiple outcrop and boulder samples with grades up to 1.88% uranium.
The Gillberget project is located in close proximity to District Metals Sågtjärn Deposit with a historical Inferred Mineral Estimate of 756kt @ 0.068% U3O8.
Like Ravenberget, the project is located within a major deformation zone with multiple areas of historical outcropping uranium mineralisation and multiple unresolved S to SE-trending uranium boulder trains discovered in the 1980’s.
WHY SWEDEN?
1.4 Mt U
Estimated uranium resources in Sweden
6
10
New reactors planned in the next 20 years
Sweden is emerging as a prime jurisdiction for uranium exploration due to its significant resources and expanding nuclear power sector. As Europe’s leading mining nation, Sweden boasts 12 operating mines and numerous deposits currently under development.
2024 Policy Shift
In 2024, Sweden initiated a review of its moratorium on uranium exploration and mining, signalling a potential shift in policy. This review aligns with the global push for nuclear power as a key to achieving Net-Zero emissions.
Key Facts about Sweden’s Uranium Potential:
- 1.4Mt | Estimated uranium resources in Sweden
- 6 | Active Nuclear Reactors
- 10 | Planned Nuclear Reactors over next 20 years
Government Support
Recent policy discussions include reconsidering previous nuclear power shutdowns and increasing the focus on low-emission power generation, which could drive demand for uranium. Sweden is attracting significant interest from major players in the uranium sector, positioning itself as a potential leader in clean energy exploration.
To participate in this opportunity
THE GROWING GLOBAL DEMAND FOR URANIUM
Nuclear energy is a key low-carbon emissions, baseload power option.
Nuclear energy is a key low-carbon emissions, baseload power option.
- 10% of the world’s electricity is currently generated from nuclear power.
- Nuclear power is carbon emission-free, providing reliable baseload power.
- Potentially threefold increase in demand for uranium due to global decarbonisation goals.