UKRI-5543 Cryoplant for the National Cryogenic Facility
UKRI wishes to establish a Contract for the provision of a Cyroplant which has the capacity rated at 2kW at 4K (equivalent to 350W at 2K.), for the National Cryogenic Facility at Daresbury Laboratory.
The cryoplant is to have the capability to provide cooling at 2K, 4K and 20K to multiple users. This capability has been specified to enable UKRI-STFC to meet requirements identified by all initial users and is scalable to meet varying demand.
This is to expand UKRI-STFCs existing expertise in cryogenics and experience in running a cryoplant as a facility user.
The MRC LMB in Cambridge are seeking a supplier to provide a comprehensive removal, relocation, and storage service for office, scientific and laboratory equipment.
For the spending review period (FY 26/27 to FY 29/30) £66 million has been allocated to the DSIT-led National Materials Innovation programme (hereafter referred to as NMIP or the Programme). UKRI is delivering £59m of the overall programme through the UKRI Materials Innovation Programme (hereafter referred to as UKRI MIP), with DSIT directly delivering the remaining £7m.
The Programme aims to tackle fragmentation across disciplines and sectors, accelerating the domestic translation of critical material innovations into applications which are vital for the future of Advanced Manufacturing, while also underscoring Energy, Digital Technologies, Defence and Life Sciences Industries. Pioneering a national approach to the sector, the programme will establish networks to bring together stakeholders, streamline infrastructure access, and unlock maximal value from existing investments. The programme will tackle materials-specific commercialisation challenges through new initiatives such as targeted programmes of interventions, digital tools, and verification services. Additional activities will address market gaps in strategic materials, strengthening the UK’s sovereign capabilities to mitigate security risks and capitalise on economic opportunities. Without this focus, key innovations risk stalling before reaching the application areas that underpin the UK’s national priorities, drive technological progress, and grow the economy. The programme is expected to deliver benefits across UK priorities with Advanced Materials highlighted in the Industrial Strategy1 as one of six frontier industries and materials underpinning other technological advances such as metamaterials for 6G communication or enhanced data centre efficiency.
UKRI seeks to appoint a people-centred design organisation to develop an evidence based design stage concept for a low cost replicable model of a child friendlier temporary accommodation for families. The focus will be on developing design principles, layouts and specifications that can be transferred and applied across different temporary accommodation settings. The project will involve:
engaging with the local community; designing child-friendly adaptations to the building and producing a clear, transferable design pack.
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UK Research & Innovation (UKRI)22 Jun 2026WAC-599644
UKRI-5996 BGS North Sea Late Cenozoic Environments
The British Geological Survey (BGS), acting on behalf of the European Consortium for Ocean Research Drilling (ECORD), requires a marine coring capability and suitable vessel to operate offshore southern North Sea, Netherlands or Denmark, for a scientific drilling and coring campaign for a period of 30 days (estimated) between April and May 2027.
This scientific coring project seeks to extend our understanding of Earth’s dynamics during the last 50 ice ages and the warmer periods between them. The North Sea Basin is an area that was heavily impacted by these ice age cycles as climate fluctuated between fully glacial to warmer-than-present conditions. The continuous sediment accumulation found in this marine environment should be thought of as a ‘tape recorder’ that contain an almost complete record of glacial-interglacial episodes, providing insight on Europe’s past climate, ecology, and large river systems over the last ~3.3 million years. Relatively little is known about how Europe evolved during repeated ice age cycles. In this expedition, we aim to collect geological samples to gain insight into the baseline dynamics and thresholds for depositional and ecosystem regime shifts, as well as biodiversity turnover driven by rapid climate changes. This research will help us better understand the environmental responses to modern-day warming.
UK Research & Innovation (UKRI)30 Jun 2026WAC-590963
