Tag Archives: small modular reactors

Small modular reactors could offer ‘game changing’ power solution in mining, report says

Environmental, Mining policy, Mining services, Power supply for mines, Sustainable mining, , , ,

A Minerals Council of Australia-backed report looking into the potential use of small modular reactors (SMRs) in Australia argues they might provide realistic options for decarbonising large regional settlements and off-grid mining operations.

The report, titled ‘Small modular reactors in the Australian context’, is authored by Dr Ben Heard, a Senior Consultant in the Engineering and Asset Management team of Frazer-Nash Consultancy.

Dr Heard thinks SMRs have a role to play in replacing fossil fuel capacity in Australia’s existing grids, but also offer a decarbonised power alternative at off-grid mine sites.

SMRs are power generators of typically 300 MWe or less that use nuclear fission to provide clean, fully reliable heat and power, on-grid or off-grid. The construction time and capital costs associated with them are considerably less than large-scale nuclear reactors or equivalent energy production methods, according to the report. They are also among the safest forms of energy production, coming with passing cooling systems, fewer mechanical parts requiring maintenance and auto fail safe, Dr Heard said.

“Factory-built and easily transportable, SMRs can be scaled to meet energy demand,” Dr Heard said. “Increasing capacity is as simple as adding another module.”

Some SMRs will also use fuel more efficiently than current reactors, producing less waste, according to Dr Heard, who said “advanced fuels” will be easier to recycle for even greater energy production.

On SMRs potential in mining, Dr Heard said: “Being potentially water free and offering decades of uninterrupted power, some of the earliest and most logical deployments of nuclear power in Australia might actually be away from our major transmission networks. Where operations are more speculative, hybrid power systems of diesel fuel, solar and batteries are likely to remain solutions of choice.

“However, for establishing or repowering remote operations away from fossil fuel consumption and with exceptional reliability, the ability to bring megawatt decades of reliable power all the way to where it is needed is a potentially game-changing technology solution.”

An overseas example of this comes from KGHM, the Poland-based copper and silver miner, which recently signed a joint commitment with NuScale Power and PBE Molecule to develop and implement SMR technology to replace its existing coal-based energy sources.

Dr Heard concluded: “In summary, SMR technology has several potentially sensible uses in Australia’s energy transition that are worthy of close consideration – joining renewable technologies to provide an incremental transition from retiring coal and gas assets; as an option for large, established settlements, and for smaller and remote off-grid settlements and operations.

“On a technical basis, their placement is relatively unconstrained compared with alternative generating options and potentially advantageous in taking advantage of existing infrastructure and skilled workforces.

“Assuming a future legislative and regulatory environment that permits the use of this technology, actual siting will benefit from best practice, consent-based siting processes.”

Cameco, GE Hitachi Nuclear Energy and Global Nuclear Fuel-Americas explore small modular reactor development

Energy minerals, Environmental, Mining services, Power supply for mines, , , , , , , , ,

Cameco, GE Hitachi Nuclear Energy (GEH) and Global Nuclear Fuel-Americas (GNF-A) have entered into a Memorandum of Understanding to explore several areas of cooperation to advance the commercialisation and deployment of BWRX-300 small modular reactors (SMRs) in Canada and around the world.

A recent study completed by Ontario Power Generation, Canadian Nuclear Laboratories, and Mining Innovation, Rehabilitation, and Applied Research Corporation said very small modular reactors (vSMRs) could provide clean, economic and reliable power and heat to remote northern mines and surrounding communities in Canada.

“Nuclear power will play a massive role in the global shift to zero-carbon energy, generating a lot of momentum for emerging SMR and advanced reactor technologies,” Cameco President and CEO, Tim Gitzel, said. “Cameco intends to be a go-to fuel supplier for these innovative reactors. We’re looking forward to working with GEH and GNF to see what opportunities might exist around their novel SMR design.”

Cameco supplies uranium, uranium refining and conversion services to the nuclear industry worldwide and, it says, is a leading manufacturer of fuel assemblies and reactor components for CANDU reactors, a Canadian pressurised heavy-water reactor design used to generate electric power.

Jay Wileman, President & CEO, GEH, said: “We are excited to explore opportunities with Cameco to advance the commercialisation of the BWRX-300. As we work to bring the world’s first grid-scale SMR to Canada we will continue to identify strategic partners whose capabilities will support the deployment of this game-changing technology in Canada and worldwide.”

Lisa McBride, Canada SMR Country Leader for GEH, said: “BWR and CANDU fuel types are closely related as both use similar cladding materials as well as ceramic, uranium dioxide fuel pellets so this type of collaboration offers the potential to extract significant synergies between the two fuel designs and manufacturing processes, enabling the expansion of Canada’s local fuel supply chain capabilities.”

The BWRX-300 (pictured) is a 300 MWe water-cooled, natural circulation SMR with passive safety systems that leverages the design and licensing basis of GEH’s US NRC-certified ESBWR (Economic Simplified Boiling Water Reactor). Through dramatic and innovative design simplification, GEH projects the BWRX-300 will require significantly less capital cost per MW when compared with other SMR designs.

By leveraging the existing ESBWR design certification, utilising the licensed and proven GNF2 fuel design, and incorporating proven components and supply chain expertise, GEH believes the BWRX-300 can become the lowest-risk, most cost-competitive and quickest to market SMR.

This MoU is not exclusive and does not preclude GEH or Cameco from pursuing similar arrangements with other companies in the nuclear energy sector, the companies said.