Planning

Research into a measurement technique for UF3 and UF4 ratios in Uranium Fuel Salts

SELLAFIELD

This public procurement record has 1 release in its history.

Planning

29 Apr 2022 at 05:36

Market Engagement Notice
Summary of the contracting process

The planning stage of this procurement process involves Sellafield contracting for research into a measurement technique for UF3 and UF4 ratios in Uranium Fuel Salts. Located in the North West of England, the initiative aims to support Terrestrial Energy's Integrated Molten Salt Reactor testing programme. Interested parties must respond to the market engagement notice by 10th May 2022. The procurement is classified under the Nuclear fuels category, with the tender titled "Research into a measurement technique for UF3 and UF4 ratios in Uranium Fuel Salts".

This tender presents significant opportunities for businesses in the fields of nuclear fuel analysis, specialised chemical products, and research and development design. Companies with expertise in developing analytical techniques or conducting laboratory-based research, particularly those with experience in electrochemical and spectrophotometric methods, would be well-positioned to compete for this contract. Success in this project could lead to further commercial ventures related to the industrialisation of analytical methods in the nuclear sector.

Find more tenders on our Open Data Platform.
How relevant is this notice?

D3 Tenders Premium

Win More Public Sector Contracts

AI-powered tender discovery, pipeline management, and market intelligence — everything you need to grow your public sector business.

Start Free Trial Book a Demo
All Features Pricing

Notice Information

Notice Title

Research into a measurement technique for UF3 and UF4 ratios in Uranium Fuel Salts

Notice Description

Terrestrial Energy are currently looking to establish a supply of Uranium based fuel salts for its Integrated Molten Salt Reactor (IMSR) testing programme and to support this establishment work NNL and Westinghouse are proposing to undertake a testing programme on Uranium based fuel salt materials to support the manufacture of this fuel at the NNL Preston laboratory. NNL and Westinghouse have agreed an analytical specification for the manufactured fuel to meet the requested specification requirements of Terrestrial Energy. However, there is a gap in the combined analytical capability, for the determination of the ratio of UF3 to UF4 material in any given sample of fuel salt to be tested. NNL are therefore looking to procure services for this element of the scope. If you have the experience/ capability required to deliver this scope of work and are interested in this procurement please respond to this PIN notice by close of play on Tuesday 10th May. Within your confirmation of interest please also detail your capability/ experience of delivering services of this nature (i.e. via Case Studies etc). Additional information: Terrestrial Energy are currently looking to establish a supply of Uranium based fuel salts for its Integrated Molten Salt Reactor (IMSR) testing programme and to support this establishment work NNL and Westinghouse are proposing to undertake a testing programme on Uranium based fuel salt materials to support the manufacture of this fuel at the NNL Preston laboratory. NNL and Westinghouse have agreed an analytical specification for the manufactured fuel to meet the requested specification requirements of Terrestrial Energy. However there is a gap in the combined analytical capability for the determination of the ratio of UF3 to UF4 material in any given sample of fuel salt to be tested. The ratio of these compounds within the fuel salt composition needs to be measurable to ensure compliance with the acceptance specification of Terrestrial Energy (target UF4/UF3 ratios in the range 50/1 - 154/1 have been specified for similar fuel salts produced for test reactors) and thus a technique needs to be developed and trialled on similar Fuel salt compositions to ensure that this technique is demonstrable and can be performed in a short timescale on multiple samples within the NNL Preston laboratory. There are no current commercial-off-the-shelf (COTS) technologies or instrumentation available to meet this analytical requirement. However, both electrochemical and spectrophotometric methods have been used to measure UF4/UF3 ratios in fuel salts produced for test reactors and it is therefore anticipated that further development of these techniques will likely provide a solution to this analytical challenge. Determination of the composition of molten fuel salts will likely be integral to development of the MSR technologies moving forward and any technological developments will be of keen interest to reactor vendors. It is anticipated therefore that this work could unlock further commercial opportunities to industrialise the analytical techniques and methods. The works contract for this scope will be formed of the following stages: * Definition of an appropriate technique for measuring UF3/UF4 ratio's in fuel salt samples to meet TEI specifications (to be confirmed although - target UF4/UF3 ratios in the range 50/1 - 154/1 have been specified for similar fuel salts produced for test reactors) * Conduct a research and development phase to provide the evidence of the techniques success on fuel salt samples. * Trial the developed technique on fuel salt samples within the NNL Preston laboratory alongside NNL staff, for proof of concept and applicability to testing in a laboratory environment. * Write up of a research paper demonstrating the R&D development of the technique and its applicability to fuel salt samples. The overall scope of work for this contract must be complete within 12 months to support the wider project timescales.

Notice Details

Publication & Lifecycle

Open Contracting ID
ocds-b5fd17-2d0cb94b-0521-4b32-8fa7-b5371301523c
Publication Source
Contracts Finder
Latest Notice
https://www.contractsfinder.service.gov.uk/Notice/6f8b25c9-3d63-496c-8bce-d1c514437a18
Current Stage
Planning
All Stages
Planning

Procurement Classification

Notice Type
Market Engagement Notice
Procurement Type
Standard
Procurement Category
Not specified
Procurement Method
Not Specified
Procurement Method Details
Not specified
Tender Suitability
Not specified
Awardee Scale
Not specified

Common Procurement Vocabulary (CPV)

CPV Divisions

09 - Petroleum products, fuel, electricity and other sources of energy

24 - Chemical products

38 - Laboratory, optical and precision equipments (excl. glasses)

73 - Research and development services and related consultancy services

CPV Codes

09340000 - Nuclear fuels

24950000 - Specialised chemical products

38432000 - Analysis apparatus

73300000 - Design and execution of research and development

Notice Value(s)

Tender Value
Not specified
Lots Value
Not specified
Awards Value
Not specified
Contracts Value
Not specified

Notice Dates

Publication Date
29 Apr 20223 years ago
Submission Deadline
Not specified
Future Notice Date
10 May 2022Expired
Award Date
Not specified
Contract Period
Not specified - Not specified
Recurrence
Not specified

Notice Status

Tender Status
Planning
Lots Status
Not Specified
Awards Status
Not Specified
Contracts Status
Not Specified

Buyer & Supplier

Contracting Authority (Buyer)

Main Buyer
SELLAFIELD
Contact Name
Available with D3 Tenders Premium →
Contact Email
Available with D3 Tenders Premium →
Contact Phone
Available with D3 Tenders Premium →

Buyer Location

Locality
WARRINGTON
Postcode
CA20 1PG
Post Town
Carlisle
Country
England
Major Region (ITL 1)
TLD North West (England)
Basic Region (ITL 2)
TLD1 Cumbria
Small Region (ITL 3)
TLD13 Cumberland
Delivery Location
TLD North West (England)
Local Authority
Cumberland
Electoral Ward
Gosforth
Westminster Constituency
Whitehaven and Workington

Further Information

Notice Documents

Open Contracting Data Standard (OCDS)

View full OCDS Record for this contracting process

Download

The Open Contracting Data Standard (OCDS) is a framework designed to increase transparency and access to public procurement data in the public sector. It is widely used by governments and organisations worldwide to report on procurement processes and contracts. 

{
    "tag": [
        "compiled"
    ],
    "id": "ocds-b5fd17-2d0cb94b-0521-4b32-8fa7-b5371301523c-2022-04-29T06:36:36+01:00",
    "date": "2022-04-29T06:36:36+01:00",
    "ocid": "ocds-b5fd17-2d0cb94b-0521-4b32-8fa7-b5371301523c",
    "language": "en",
    "initiationType": "tender",
    "title": "Research into a measurement technique for UF3 and UF4 ratios in Uranium Fuel Salts",
    "planning": {
        "milestones": [
            {
                "id": "1",
                "title": "Engagement end date",
                "type": "engagement",
                "dueDate": "2022-05-10T23:59:59+01:00"
            }
        ],
        "documents": [
            {
                "id": "1",
                "documentType": "marketEngagementNotice",
                "description": "Early engagement notice on Contracts Finder",
                "url": "https://www.contractsfinder.service.gov.uk/Notice/6f8b25c9-3d63-496c-8bce-d1c514437a18",
                "datePublished": "2022-04-29T06:36:36+01:00",
                "format": "text/html",
                "language": "en"
            }
        ]
    },
    "tender": {
        "id": "CTM RFT 15332",
        "title": "Research into a measurement technique for UF3 and UF4 ratios in Uranium Fuel Salts",
        "description": "Terrestrial Energy are currently looking to establish a supply of Uranium based fuel salts for its Integrated Molten Salt Reactor (IMSR) testing programme and to support this establishment work NNL and Westinghouse are proposing to undertake a testing programme on Uranium based fuel salt materials to support the manufacture of this fuel at the NNL Preston laboratory. NNL and Westinghouse have agreed an analytical specification for the manufactured fuel to meet the requested specification requirements of Terrestrial Energy. However, there is a gap in the combined analytical capability, for the determination of the ratio of UF3 to UF4 material in any given sample of fuel salt to be tested. NNL are therefore looking to procure services for this element of the scope. If you have the experience/ capability required to deliver this scope of work and are interested in this procurement please respond to this PIN notice by close of play on Tuesday 10th May. Within your confirmation of interest please also detail your capability/ experience of delivering services of this nature (i.e. via Case Studies etc). Additional information: Terrestrial Energy are currently looking to establish a supply of Uranium based fuel salts for its Integrated Molten Salt Reactor (IMSR) testing programme and to support this establishment work NNL and Westinghouse are proposing to undertake a testing programme on Uranium based fuel salt materials to support the manufacture of this fuel at the NNL Preston laboratory. NNL and Westinghouse have agreed an analytical specification for the manufactured fuel to meet the requested specification requirements of Terrestrial Energy. However there is a gap in the combined analytical capability for the determination of the ratio of UF3 to UF4 material in any given sample of fuel salt to be tested. The ratio of these compounds within the fuel salt composition needs to be measurable to ensure compliance with the acceptance specification of Terrestrial Energy (target UF4/UF3 ratios in the range 50/1 - 154/1 have been specified for similar fuel salts produced for test reactors) and thus a technique needs to be developed and trialled on similar Fuel salt compositions to ensure that this technique is demonstrable and can be performed in a short timescale on multiple samples within the NNL Preston laboratory. There are no current commercial-off-the-shelf (COTS) technologies or instrumentation available to meet this analytical requirement. However, both electrochemical and spectrophotometric methods have been used to measure UF4/UF3 ratios in fuel salts produced for test reactors and it is therefore anticipated that further development of these techniques will likely provide a solution to this analytical challenge. Determination of the composition of molten fuel salts will likely be integral to development of the MSR technologies moving forward and any technological developments will be of keen interest to reactor vendors. It is anticipated therefore that this work could unlock further commercial opportunities to industrialise the analytical techniques and methods. The works contract for this scope will be formed of the following stages: * Definition of an appropriate technique for measuring UF3/UF4 ratio's in fuel salt samples to meet TEI specifications (to be confirmed although - target UF4/UF3 ratios in the range 50/1 - 154/1 have been specified for similar fuel salts produced for test reactors) * Conduct a research and development phase to provide the evidence of the techniques success on fuel salt samples. * Trial the developed technique on fuel salt samples within the NNL Preston laboratory alongside NNL staff, for proof of concept and applicability to testing in a laboratory environment. * Write up of a research paper demonstrating the R&D development of the technique and its applicability to fuel salt samples. The overall scope of work for this contract must be complete within 12 months to support the wider project timescales.",
        "status": "planning",
        "classification": {
            "scheme": "CPV",
            "id": "09340000",
            "description": "Nuclear fuels"
        },
        "additionalClassifications": [
            {
                "scheme": "CPV",
                "id": "24950000",
                "description": "Specialised chemical products"
            },
            {
                "scheme": "CPV",
                "id": "38432000",
                "description": "Analysis apparatus"
            },
            {
                "scheme": "CPV",
                "id": "73300000",
                "description": "Design and execution of research and development"
            }
        ],
        "items": [
            {
                "id": "1",
                "deliveryAddresses": [
                    {
                        "region": "North West",
                        "countryName": "United Kingdom"
                    }
                ]
            }
        ],
        "suitability": {
            "sme": false,
            "vcse": false
        }
    },
    "parties": [
        {
            "id": "GB-SRS-sid4gov.cabinetoffice.gov.uk/V46d8W3T",
            "name": "Sellafield",
            "identifier": {
                "legalName": "Sellafield",
                "scheme": "GB-SRS",
                "id": "sid4gov.cabinetoffice.gov.uk/V46d8W3T"
            },
            "address": {
                "streetAddress": "National Nuclear Laboratory",
                "locality": "Warrington",
                "postalCode": "CA20 1PG",
                "countryName": "England"
            },
            "contactPoint": {
                "name": "David Kirkbride",
                "email": "david.kirkbride@uknnl.com"
            },
            "details": {
                "url": "https://www.nnl.co.uk/"
            },
            "roles": [
                "buyer"
            ]
        }
    ],
    "buyer": {
        "id": "GB-SRS-sid4gov.cabinetoffice.gov.uk/V46d8W3T",
        "name": "Sellafield"
    }
}