Tender

Supply and Installation of a Hydrogen Reactor for Processing of Magnetic Scrap (HPMS) Vessel, to the University of Birmingham

UNIVERSITY OF BIRMINGHAM

This public procurement record has 2 releases in its history.

Tender

27 Jul 2021 at 17:14

Tender Notice
TenderUpdate

30 Jun 2021 at 10:57

Tender Notice
Summary of the contracting process

The University of Birmingham is actively seeking tenders for the supply and installation of a bespoke hydrogen reactor for processing magnetic scrap, specifically the HPMS vessel. This project is classified under the goods category with a focus on pressure vessels, and it is funded by UK Research and Innovation as part of the Industrial Strategy Challenge Fund. The procurement is currently at the tender stage, with key dates including a submission deadline originally set for 7th July 2021, now extended to 21st July 2021. The vessel will be installed at Tyseley Energy Park in Birmingham, and the total estimated value of the tender is £610,000.

This tender presents significant opportunities for businesses involved in the design and manufacturing of specialised pressure vessels, particularly those with experience in hydrogen processing technologies. Companies that can provide innovative solutions for magnet recycling and are familiar with the specifics of large-scale production processes will be well-suited to compete. Additionally, firms offering expertise in environmental sustainability, as this project aims to enhance the recycling capabilities of permanent magnets, will find fertile ground for business growth in this procurement.

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Notice Information

Notice Title

Supply and Installation of a Hydrogen Reactor for Processing of Magnetic Scrap (HPMS) Vessel, to the University of Birmingham

Notice Description

This project is funded by the UK Research and Innovation (UKRI) Industrial Strategy Challenge Fund; Driving the Electric Revolution under grant agreement 1524086 The University of Birmingham invites tenders for supply of a bespoke, hydrogen processing of magnet scrap (HPMS) vessel. The HPMS vessel will be the largest magnet recycling plant of its kind in the UK and will focus on processing of end of life magnets containing magnetic scrap. The HPMS vessel is based on a patented technology, developed at the University of Birmingham, in which hydrogen is used to extract neodymium-iron-boron (Nd-Fe-B) magnet powder from end of life permanent magnet containing products. During the P a g e | 3 HPMS process, sintered Nd-Fe-B magnets, which are embedded in end of life products, are loaded inside a vessel, which is then sealed, evacuated, back filled with an inert gas (e.g. Argon or Nitrogen), evacuated and then filled with between 1-4 bar of hydrogen at room temperature for between 1-4 hours. Once exposed to hydrogen, the sintered Nd-Fe-B undergoes the hydrogen decrepitation (HD) process and breaks down into a friable, demagnetised, hydrogenated powder. Often the end of life products containing the Nd-Fe-B material are encased within some sort of housing so the hydrogenated powder needs to be liberated from the scrap using mechanical agitation through a porous sieve stage. This is typically performed by rotating the scrap within a porous drum (3-5 mm pore size) within the HPMS vessel, after which the powder falls into a sealable collection pot at the bottom of the vessel, which can then be unloaded under an argon or nitrogen atmosphere (O2 = < 5 ppm). It would be an advantage if the HPMS vessel could be inertly loaded with scrap in this application through a hopper system or that flanges were in place to retro-fit this. The extracted alloy powder will be converted into recycled NdFeB magnets using further processes, which do not form part of this tender. The HPMS process has already been demonstrated at the 5 kg scale using a 300 L vessel at the University of Birmingham. The main objective of the new HPMS vessel will be to scale this technology up to 200-300 kg batch sizes. Note, due to the space requirements of the system, the large scale HPMS vessel will be installed at the Tyseley Energy Park (TEP).

Lot Information

Lot 1

This project is funded by the UK Research and Innovation (UKRI) Industrial Strategy Challenge Fund; Driving the Electric Revolution under grant agreement 1524086 The University of Birmingham invites tenders for supply of a bespoke, hydrogen processing of magnet scrap (HPMS) vessel. The HPMS vessel will be the largest magnet recycling plant of its kind in the UK and will focus on processing of end of life magnets containing magnetic scrap. The HPMS vessel is based on a patented technology, developed at the University of Birmingham, in which hydrogen is used to extract neodymium-iron-boron (Nd-Fe-B) magnet powder from end of life permanent magnet containing products. During the P a g e | 3 HPMS process, sintered Nd-Fe-B magnets, which are embedded in end of life products, are loaded inside a vessel, which is then sealed, evacuated, back filled with an inert gas (e.g. Argon or Nitrogen), evacuated and then filled with between 1-4 bar of hydrogen at room temperature for between 1-4 hours. Once exposed to hydrogen, the sintered Nd-Fe-B undergoes the hydrogen decrepitation (HD) process and breaks down into a friable, demagnetised, hydrogenated powder. Often the end of life products containing the Nd-Fe-B material are encased within some sort of housing so the hydrogenated powder needs to be liberated from the scrap using mechanical agitation through a porous sieve stage. This is typically performed by rotating the scrap within a porous drum (3-5 mm pore size) within the HPMS vessel, after which the powder falls into a sealable collection pot at the bottom of the vessel, which can then be unloaded under an argon or nitrogen atmosphere (O2 = < 5 ppm). It would be an advantage if the HPMS vessel could be inertly loaded with scrap in this application through a hopper system or that flanges were in place to retro-fit this. The extracted alloy powder will be converted into recycled NdFeB magnets using further processes, which do not form part of this tender. The HPMS process has already been demonstrated at the 5 kg scale using a 300 L vessel at the University of Birmingham. The main objective of the new HPMS vessel will be to scale this technology up to 200-300 kg batch sizes. Note, due to the space requirements of the system, the large scale HPMS vessel will be installed at the Tyseley Energy Park (TEP).

Notice Details

Publication & Lifecycle

Open Contracting ID
ocds-h6vhtk-02b914
Publication Source
Find A Tender Service
Latest Notice
https://www.find-tender.service.gov.uk/Notice/012707-2021
Current Stage
Tender
All Stages
Tender

Procurement Classification

Notice Type
Tender Notice
Procurement Type
Standard
Procurement Category
Goods
Procurement Method
Open
Procurement Method Details
Open procedure
Tender Suitability
Not specified
Awardee Scale
Not specified

Common Procurement Vocabulary (CPV)

CPV Divisions

24 - Chemical products

31 - Electrical machinery, apparatus, equipment and consumables; lighting

44 - Construction structures and materials; auxiliary products to construction (except electric apparatus)

CPV Codes

24111000 - Hydrogen, argon, rare gases, nitrogen and oxygen

31630000 - Magnets

44615000 - Pressure vessels

Notice Value(s)

Tender Value
£610,000 £500K-£1M
Lots Value
£610,000 £500K-£1M
Awards Value
Not specified
Contracts Value
Not specified

Notice Dates

Publication Date
27 Jul 20214 years ago
Submission Deadline
7 Jul 2021Expired
Future Notice Date
Not specified
Award Date
Not specified
Contract Period
Not specified - Not specified
Recurrence
Not specified

Notice Status

Tender Status
Active
Lots Status
Active
Awards Status
Not Specified
Contracts Status
Not Specified

Buyer & Supplier

Contracting Authority (Buyer)

Main Buyer
UNIVERSITY OF BIRMINGHAM
Contact Name
Susanna Ting
Contact Email
s.y.ting@bham.ac.uk
Contact Phone
Not specified

Buyer Location

Locality
BIRMINGHAM
Postcode
B15 2TT
Post Town
Birmingham
Country
England
Major Region (ITL 1)
TLG West Midlands (England)
Basic Region (ITL 2)
TLG3 West Midlands
Small Region (ITL 3)
TLG31 Birmingham
Delivery Location
TLG West Midlands (England)
Local Authority
Birmingham
Electoral Ward
Edgbaston
Westminster Constituency
Birmingham Edgbaston

Further Information

Open Contracting Data Standard (OCDS)

View full OCDS Record for this contracting process

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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. 

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