Published date: 11 March 2019

Closed early engagement


Closing date: 22 March 2019

Contract summary

Industry

  • Engineering services - 71300000

  • Design and execution of research and development - 73300000

Location of contract

OX11 0DE

Procurement reference

UKSBS PR19033 ISIS Moderators

Published date

11 March 2019

Closing date

22 March 2019

Contract is suitable for SMEs?

Yes

Contract is suitable for VCSEs?

No

Description

UKRI-STFC has a future requirement for the provision of several moderators for its ISIS facility.
UKRI-STFC is interested in engaging with industry to explain its requirements and offer the opportunity to provide suggestions or feedback, prior to publication of a Contract Notice for its requirements in the future, by means of an industry engagement day on the 3rd April 2019 at Rutherford Appleton Laboratories.
Economic operators that are interested in participating in such should contact UKSBS by email on majorprojects@uksbs.co.uk to confirm their interest in attending before 17:00 GMT on the 22nd March 2019.

More information

Attachments

Additional text

ISIS Moderators
ISIS is a facility which produces neutrons for scientific research. The neutrons are generated by firing high energy protons into a heavy metal target. The neutrons produced in this way are too energetic and need to be moderated. The moderation is carried out in hydrogenous materials such as ambient temperature water, liquid methane at 110K (-163C), solid methane at 40K (233oC) and liquid hydrogen at 20K (253oC). The moderating materials need to be contained in metallic vessels which allow them to be placed inside a neutron reflector assembly close to the neutron production target.
The vessels containing the moderating material need to be as transparent to neutrons as possible whilst being sufficiently strong to operate safely and reliably for extended periods of time at significant pressure (sometimes several bar) in an extreme radiation environment. Because of this the vessels are generally made from aluminium alloys and where appropriate, austenitic stainless steel.
The moderating process generates significant amounts of heat which needs to be extracted from the moderator and so they are connected to a remote cooling system via a transfer line which allows the coolant, often the liquid moderating material its self, to be flowed in and out of the moderator to extract this heat.
The moderator vessel performance gradually deteriorates over time in the high radiation environment and they need to be replaced periodically with new ones. The period for replacement varies according to the moderating material used and because the vessels are highly radioactive they need to be changed by remote handling in a remote handling cell.
There is often a need to know the operating temperature of the moderator and so they are usually fitted with thermocouples too.
Several of the moderator vessels are operating at cryogenic temperatures and as such they have the usual requirements associated with this type of equipment such as high vacuum integrity and containment, low temperature capability, low heat leak and specialist cryogenic connections which need to connect to existing transfer lines with specialist seals.
The ISIS facility operates to a demanding scientific programme which sets a requirement for moderators to befitted and operational to a schedule often agreed several years in advance. Because of this the timely delivery to site of replacement moderators is critical. Typically each year there is a requirement for 3 to 5 moderators of the different types to be delivered. The facility is always developing and periodically new moderator designs will be developed and these will need to be prototyped and tested before being used on the main science programme too.
UKRI-STFC envisions that approximately 10 moderators, in total, of the various types described will be required over a 4 year period, with an approximate total value of £400K.

About the buyer

Address

North Star House
SWINDON
SN21FF
England

Email

majorprojects@uksbs.co.uk