Performance Assessment and Development of Mineral-Based Cements at High Pressure and Temperature for Deep Borehole Disposal of HLW and SNF

Lead Research Organisation: University of Sheffield
Department Name: Materials Science and Engineering

Abstract

The need to secure a low-carbon energy source to meet the ever-increasing demand for electricity makes the increasing use of nuclear power a virtual certainty. Nuclear power, like all other forms of energy, generates waste, including high-level radioactive waste and spent fuel (SF). No environmentally and politically satisfactory solution has yet been implemented anywhere in the world for the disposal of spent fuel. The main problem with spent fuel is the high radiogenic heating. Disposal in a mined, engineered repository such the Swedish KBS-3 concept or similar designs proposed for the UK and some other European countries would require prolonged periods of post-reactor cooling and even then would place severe constraints on the engineered barriers. Over the last decade, we (Gibb, Travis, McTaggart & co-workers at the University of Sheffield) have developed an alternative concept for dealing with SF, particularly the high burn-up SF likely to be removed from GEN III reactors in new-build power stations. This alternative is based on very deep disposal in geological boreholes. Deep borehole disposal which utilises an order of magnitude increase in the geological barrier (over and above a mined repository) is potentially a safer option for SF, could be implemented faster and at a fraction of the cost of a repository. The proposed research programme is to further develop borehole disposal such that we greatly extend its applicability to enable the safe, efficient long term disposal of a much wider range of SFs from very young hot fuel to older, legacy SFs.

Our current borehole disposal concept for high heat-generating SFs would utilise a special lead-based alloy, employed as a fine shot. This material is designed to support the load of an overlying stack of waste containers and, through radiogenic heating by the waste, becomes fluid and fills any remaining crevices in and around the borehole, forming a permanent seal, and extra barrier upon subsequent cooling. This system is not a universal catch-all; for some waste loadings, insufficient heat will be generated to melt the shot, e.g. during disposal of older fuel . We are seeking to extend the flexibility of our disposal scheme to all SFs by developing a geothermal cement as an alternative to the lead-based alloy support matrix.

The proposed research will identify a range of candidate geothermal cements based on heat flow modelling of typical borehole disposal scenarios. Our experienced team which includes: an international expert in geothermal cements, Dr Neil Milestone; the originator of our deep borehole concept for spent fuel disposal, Professor Fergus Gibb; and an expert in multiscale modelling, Dr Karl Travis, will conduct a programme of experimentally based research to reduce the list of candidate cements by measuring important properties such as viscosity, setting time, durability and geochemistry. If no suitable material is found, an attempt will be made to use the results of the investigation to develop one that is fit for purpose. It is highly probable that a successful outcome would yield a product with applications in other areas of nuclear waste packaging and disposal as well as the hydrocarbon and geothermal drilling industries.

Planned Impact

The wider national & international impact is for the energy crisis and climate change through facilitating the continued and expanded use of carbon-free nuclear energy, to which the principle obstacle is how to deal with the wastes, especially spent fuel (SF) and reprocessing HLW.
The main impact is for the development of deep borehole disposal (DBD) as a potentially safer, more cost-effective and environmentally sound alternative to mined and engineered repositories for disposal of SF, HLW and possibly Pu. The impact is likely to occur soonest in the USA where, with the demise of the federal repository at Yucca Mountain, the problem of SF is acute and the Presidential Blue Ribbon Commission has focussed attention on DBD as a way forward. Our pioneering research in DBD has led to our involvement in a US DOE-funded consortium led by Sandia NL to research and develop DBD and take it through to a practical demonstration. A successful outcome to the proposed research on cement, while not part of this consortium's work, has the potential to feed into it and widen the options for the engineered barrier systems and for the range of wastes that could be managed by DBD.
In the UK, in response to a Government request to consider options for acceleration of the MRWS programme, NDA has acknowledged a possible role for DBD, especially for the early disposal of vitrified reprocessing HLW. The specific objective of the proposed research is to develop a fit-for-purpose cement grout aimed at DBD of the UK's inventory of reprocessing HLW (and possibly older SF) but, since DBD is, as yet, outside RWMD's remit the intended impact is more likely to occur in the longer term. However, as part of their brief to maintain awareness of new technologies, NDA and RWMD have already expressed interest. Given the scale and urgency of the UK's 'legacy waste' problem, the impact of the work could be considerable.
Secondary, but important, impacts could be elsewhere in the nuclear industry and in the hydrocarbon and geothermal energy industries where the problems of cementing and sealing wells are well known.
Currently, cements are used extensively in the nuclear industry for grouting wastes into their containers and it is proposed to use similar materials in proposed GDF concepts where elevated temperatures could prevail. While existing formulations are deemed satisfactory in the former context, they are not ideal in that their flow/void filling properties could be better and they do not perform well with reactive metal wastes. Clearly, the development of a cement grout with better flow, setting and performance characteristics (as required for DBD use) could spin off to applications in this area.
The main use of cements in the oil and gas industry is for grouting casing to seal wells. While commercially available well cements are generally satisfactory they can fail with serious consequences under the more extreme conditions being increasingly encountered as hydrocarbon exploration probes further and deeper, e.g., BP's Deepwater Horizon disaster, which has led to litigation against the cement supplier. Geothermal energy wells nearly always have to be sealed by casing and grouting to prevent fluid loss and erosion of the wall rock. Conventional geothermal cements usually prove adequate in the short term, but in the harsher and more aggressive chemical environments increasingly being exploited, e.g. in New Zealand, failure and loss of the well can occur within a few years. A successful outcome to the proposed research to develop a grout that can perform satisfactorily in the severe, high temperature and pressure conditions of DBD could lead to improved formulations to resolve serious problems in both the hydrocarbon and geothermal drilling industries as they seek to push the envelope ever further.

Publications

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Beswick A (2014) Deep borehole disposal of nuclear waste: engineering challenges in Proceedings of the Institution of Civil Engineers - Energy

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Collier N (2015) Cementitious grouts for disposal of nuclear wasteforms in deep boreholes in 15th International High-Level Radioactive Waste Management Conference 2015, IHLRWM 2015

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Collier N (2017) Inorganic anions as retarders for deep borehole disposal grouts in Advances in Cement Research

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Collier N (2018) Deep borehole disposal grouts - are inorganic retarders appropriate? in Advances in Cement Research

 
Description Resulting from the experimental laboratory work carried out during the placement at Callaghan Innovation, as well as from the work performed since returning to The University of Sheffield, we have discovered and developed the following points:
- Two types of cementitious grouts containing organic retarders capable of operating across the range of temperatures and pressures likely to be experienced during the Deep Borehole Disposal (DBD) of high-level waste (HLW) have been developed. These two types of grout have been selected for further laboratory-scale testing which is currently being performed, and which will continue for the remainder of the grant funding period.
- Laboratory testing of other grouts containing inorganic retarders has been performed and has demonstrated that these grouts are only capable of operating at low DBD temperatures. This work is continuing in order to try and identify more appropriate inorganic materials.
- Organic additives are also been investigated/developed in order to facilitate the grouts to flow through water at DBD temperatures and pressures, and this work will continue for the duration of the grant funding period.
Overall, the work performed to date has demonstrated that cementitious grouts can be used for this DBD application, and the grouts currently being developed should be fit for purpose in the actual DBD process. The experimental work has also shown that further larger-scale work carried out at representative temperatures and pressures is required in order to take the developmental process further and facilitate efficient production of a workable product(s) for use in the actual DBD process.
Exploitation Route Controlling the setting and hardening performance of wet cementitious pastes at high temperature and pressure, as well as hardened paste composition and durability, will be of great use to the hydrocarbon and geothermal energy industries. This ability to have control over how the grouts perform will facilitate production of safer and more durable energy wells which should be paramount for these industries.
Sectors Construction

Energy

Environment

Government

Democracy and Justice

 
Description The grant is still in progress and at an early stage. Nonetheless, the PI (KPT) has gained an invited talk at the Materials Research Society conference in Boston (December 1st - 4th 2014) entitled "Deep Borehole Disposal Research: What Have We Learned from Numerical Modeling and What Can We Learn?" The PDRA, Dr Nick Collier, will also present his findings from this grant at the same symposium. All 3 researchers: PI, CI and PDRA will make presentations at the American Nuclear Society conference next April in South Carolina. We are preparing for submission a total of 5 papers as a result of these conference talks. The CI and PDRA were invited as Panel Members to attend the US Nuclear Waste Technical Review Board (NWTRB) International Technical Workshop on Deep Borehole Disposal of Radioactive Waste. This was a prestigious invitation from a US Department of Energy organisation. Both invitees gave presentations and the PDRA was a member of a chaired discussion session where panel members responded to queries put to them by the NWTRB. The PDRA was also invited to be the spokesperson for this panel. The PDRA was invited by the International Atomic Energy Authority (IAEA) to attend an Expert Mission to Slovakia to advise two Slovakian organisations (Vuje and Javys) on the possible use of DBD in Slovakia, as well as methods to dispose of intermediate level nuclear waste. The PDRA visited the National Nuclear Laboratory to present and discuss his work, as well as the wider research being performed by the Sheffield group on developing DBD. He also presented his work to the Advanced Materials group in Callaghan Innovation, New Zealand, during his work placement. The PI, CI and PDRA all visited Marriott Drilling (a project partner) and the PDRA presented his work to the management of the company. Technical aspects of the overall work being performed in the group at Sheffield were discussed, as well as further collaboration. This visit strengthened collaborative ties with the company. The PDRA has also presented his work at two open day meetings with The University of Leeds, and at The University of Sheffield Department of Materials Science and Engineering open day. The PI and PDRA are organising a meeting entitled International Meeting on DBD of High-Level Radioactive Waste, to be held in Sheffield on 13th-15th June 2016. This is the first international meeting of its kind focussed specifically on the topic of DBD, and will host keynote speakers and invited talks from top international experts in their fields and from a range of countries (including the UK, USA, New Zealand, Korea, Sweden, Switzerland and Germany). The PI was invited to be of an expert panel at the Waste Management symposium in Phoenix, 2016. The PI was invited to write an article on DBD for the journal Nuclear Future - article published late 2016. The PI contributed to a report on alterntaive waste management strategies sent to Radioactive Waste Management Ltd. At the time of submission, it is not known if the the report is going to be published by RWM.
Sector Energy,Environment
Impact Types Societal

Policy & public services

 
Description Invited panel members at U.S. Nuclear Waste Technical Review Board's International workshop on Deep Borehole Disposal
Geographic Reach North America 
Policy Influence Type Contribution to a national consultation/review
Impact The NWTRB's technical workshop was a national review of the waste management disposal option : deep borehole disposal(DBD). Collier and Gibb were each invited to participate in the workshop on the strength of the former's expertise in high temperature cements - developed as part of this EPSRC grant and the latter's extensive knowledge of DBD. The enquirey looked at the "state of readiness" of DBD, which is proposed by the US Dept. of Energy as a possible solution for spent fuel and smaller waste packages. The Sheffield DBD research group gained high regard from participation in this workshop and it was recognised that we are engaging in cutting edge research - the only group in the UK to be doing so.
URL https://energy.gov/sites/prod/files/2015/12/f27/2%20Bret%20Leslie.pdf
 
Description Collaborative work with Callaghan Innovation in New Zealand 
Organisation Callaghan Innovation
Country New Zealand 
Sector Private 
PI Contribution Although collaboration with Callaghan Innovation was funded by the project to pay for the secondee to both use equipment unavailable at The University of Sheffield and have regular technical discussions, the flow of technical expertise and production of the results obtained in the project work also benefits Callaghan Innovation in aspects of their work outside that associated with this project. Further, dissemination of the work carried out during the collaboration benefits Callaghan Innovation in being associated with novel work in this particular field.
Collaborator Contribution Collaborating with Callaghan Innovation allows the UK team to draw on many years of experience and expertise within a field which has significant cross-over with many technical aspects associated with this project. Employees within Callaghan Innovation have provided significant advice on the choice of materials appropriate for use in the project work, as have also advised on likely long-term material performance and durability. In addition to this, use of all facilities available within the Callaghan Innovation laboratories (some of which are essential and are currently unavailable at The University of Sheffield) during secondment of the main project worker has been facilitated by the project.
Impact Presentation and publication associated with the Material Research Society (MRS). Presentation and publication associated with the American Nuclear Society (ANS).
Start Year 2014
 
Description Sandia Borehole collaboration 
Organisation Sandia Laboratories
Country United States 
Sector Private 
PI Contribution Two contributions to Sandia Reports (for the US Department of Energy) on methods for sealing deep boreholes and a baseline concept for disposing of the Hanford Cesium and strontium capsules, participation in international workshops.
Collaborator Contribution Directly supporting our research into sealing methods through a grant, enabling the purchase of laboratory equipment, admin support and for an additional PDRA to be appointed in 2016.
Impact Two US Department of Energy reports, one of which (SAND2014-17430R) has made an impact on the US DOE, which is now considering the use of a single borehole to dispose of the entire Hanford Cesium/Strontium capsule inventory, thus removing a third of the radioactivity at the site. Work of Travis and Gibb is central to this.
Start Year 2013
 
Description A presentation as part of an International Atomic Energy Agency (IAEA) expert mission to a national laboratory organisation (Vuje) in Slovakia. 
Form Of Engagement Activity A talk or presentation
Part Of Official Scheme? No
Geographic Reach National
Primary Audience Industry/Business
Results and Impact This was an hour long presentation to an organisation in Slovakia (a national laboratory organisation called Vuje). The audience was approximately 25 people consisting of technical industrialists and policy making management executives. The purpose of the presentation was to explain how the UK is developing Deep Borehole Disposal technology, how we in the UK fit in with the rest of the international DBD community, and to explain the work that we in the Sheffield DBD research Group are leading. The presentation was very well received and generated significant interest through questions immediately after the presentation.
Year(s) Of Engagement Activity 2015
 
Description A presentation at the National Nuclear Laboratory on Deep Borehole Disposal and the research work being performed in the Sheffield DBD Research Group 
Form Of Engagement Activity A talk or presentation
Part Of Official Scheme? No
Geographic Reach National
Primary Audience Industry/Business
Results and Impact This was an hour long presentation across the whole of the National Nuclear Laboratory sites (4 in total) which would have reached between 200-300 people. The audience was mostly technical industrialists and policy making management executives. The purpose of the presentation was to explain how the UK is developing Deep Borehole Disposal technology, how we in the UK fit in with the rest of the international DBD community, and to explain the work that we in the Sheffield DBD research Group are leading. The presentation was very well received and generated significant interest through questions both immediately after the presentation, as well as throughout the rest of the day spent at the organisation.
Year(s) Of Engagement Activity 2014
 
Description A visit to Marriott Drilling for meetings and presentations concerning engineering aspects of Deep Borehole Disposal. 
Form Of Engagement Activity A talk or presentation
Part Of Official Scheme? No
Geographic Reach National
Primary Audience Industry/Business
Results and Impact This was a half day of meetings and presentations with Marriott Drilling who are international experts on drilling deep boreholes. The meetings were with the company management board. The purpose was to explain how the UK is developing Deep Borehole Disposal technology, how we in the UK fit in with the rest of the international DBD community, and to explain the work that we in the Sheffield DBD research Group are leading. Significant interest was generated through questions, and they expressed their interest in working further with our group at Sheffield.
Year(s) Of Engagement Activity 2015
 
Description Article in The Engineer 
Form Of Engagement Activity A press release, press conference or response to a media enquiry/interview
Part Of Official Scheme? No
Geographic Reach National
Primary Audience Professional Practitioners
Results and Impact Fergus Gibb gave an interview with Jon Excell for an article in The Engineer entitled: "US to trial pioneering deep-borehole nuclear waste disposal technique", 28th April 2015
Year(s) Of Engagement Activity 2015
 
Description Conference presentation at Thermodynamics 2017, Edinburgh 
Form Of Engagement Activity A talk or presentation
Part Of Official Scheme? No
Geographic Reach International
Primary Audience Professional Practitioners
Results and Impact Presentation entitled: Deep Borehole Disposal - a faster, cheaper and potentially safer option for the long term management of high level nuclear waste. Conference is an bi-ennial meeting in thermodynamics bringing together chemists, physicists and chemical engineers from academia and industry. The talk was aimed at a general audience who are largely unaware of this disposal method, its national significance, its controversy (UK gov is pursuing the GDF concept) and how it requires mathematics, heat transfer, numerical simulation and experimental work to underpin it. Got a lot of questions from the audience at the end - it was very well received.
Year(s) Of Engagement Activity 2017
 
Description International Meeting on Deep Borehole Disposal of High-Level Radioactive Waste 
Form Of Engagement Activity Participation in an activity, workshop or similar
Part Of Official Scheme? No
Geographic Reach International
Primary Audience Policymakers/politicians
Results and Impact In June 2016 The DBD Research Group at The University of Sheffield hosted the first open, international scientific conference wholly devoted to Deep Borehole Disposal (DBD). Representatives from around the world participated in the three day conference, including most leading deep borehole scientists, as well as representatives from the drilling and nuclear waste management industries and governmental organisations.

The meeting covered both technical and policy presentations, and included a panel discussion, all with substantial participation by the attendees. In the panel discussion held at the end of the conference, panelists and participants captured their thoughts on key issues to be addressed to promote the development and availability of DBD as a mechanism for safe, secure disposal of certain high-level radioactive wastes. Key conclusions were reached and were disseminated to the conference attendees.
Year(s) Of Engagement Activity 2016
URL https://www.sheffield.ac.uk/materials/news/deepboreholedisposal-1.586985
 
Description Interview for an article in The Times 
Form Of Engagement Activity A press release, press conference or response to a media enquiry/interview
Part Of Official Scheme? No
Geographic Reach International
Primary Audience Media (as a channel to the public)
Results and Impact Fergus Gibb gave an interview to Ben Webster, the environment Editor at The Times, leading to an article published in The Times entitled "US will test British nuclear waste-disposal plan".
Year(s) Of Engagement Activity 2015
 
Description Interview for article in New Scientist 
Form Of Engagement Activity A press release, press conference or response to a media enquiry/interview
Part Of Official Scheme? No
Geographic Reach International
Primary Audience Professional Practitioners
Results and Impact Fergus Gibb gave an interview for New Scientist for an article entitled: "Eternal Challenge" by Amanda Mascarelli, issue 2941 (2013).
Year(s) Of Engagement Activity 2013
 
Description Panel discussion on deep borehole disposal of spent fuel 
Form Of Engagement Activity A formal working group, expert panel or dialogue
Part Of Official Scheme? No
Geographic Reach International
Primary Audience Professional Practitioners
Results and Impact I was a member of an expert panel discussing Deep Borehole Disposal of spent nuclear fuel at the Waste Management Symposium, Phoenix, Arizona USA. Each panel member gave a brief 15 minute presentation and then the discussion was opened up for members of the audience to ask questions of any of the panel members.
Year(s) Of Engagement Activity 2017
 
Description Presentation at Waste Management Symposium 2017, Phoenix Arizona 
Form Of Engagement Activity A talk or presentation
Part Of Official Scheme? No
Geographic Reach International
Primary Audience Professional Practitioners
Results and Impact Presented the paper entitled: Determining Salinity Recharge Time for Deep Borehole Disposal - 1748 at a Deep Borehole Disposal session at the waste management symposium in Phoenix Arizona. WM symposia are held every year at the same time and the event is attended by academics, industrial workers from the nuclear supply chain, and policy makers. The session on deep borehole was only the third time this has run at WM but it had grown significantly in popularity. The intended purpose was to show how numerical modelling could be used to obtain an estimate of the maximum lifetime of sealing systems used for boreholes. This is significant for pursuading WM organisations to consider DBD for high level waste.
Year(s) Of Engagement Activity 2017
 
Description School outreach 
Form Of Engagement Activity A talk or presentation
Part Of Official Scheme? No
Geographic Reach Regional
Primary Audience Schools
Results and Impact Fergus Gibb gave an invited talk to staff and pupils of Eton College entitled "Deep Borehole disposal of Spent Nuclear Fuel: An alternative to mined repositories, March 2014. There was a lively question and answer session following the presentation.
Year(s) Of Engagement Activity 2014
 
Description Universities Nuclear Technology Forum 2016 
Form Of Engagement Activity Participation in an activity, workshop or similar
Part Of Official Scheme? No
Geographic Reach National
Primary Audience Industry/Business
Results and Impact In Spring 2016 members of the Sheffield DBD Research Group organised and ran the UNTF 2016 meeting. These meetings are supported by the Nuclear Institute and are organised by The UK Nuclear University Network. The UNTF meetings are aimed at postgraduate researchers working in UK universities on nuclear-related research projects. They are very informal, and an excellent opportunity to network with present and future colleagues. Recent graduates working in the nuclear industry also register.

Presenting students are sponsored by the Nuclear Institute (NI). The student who gave the best presentation received a prize, also from NI, and had their paper published in the NI journal Nuclear Future.
Year(s) Of Engagement Activity 2016
 
Description Visit to China Nuclear Power Engineering Co. Ltd. Beijing China to attend : Symposium on Deep Borehole Disposal of High-level Radioactive Waste 
Form Of Engagement Activity A talk or presentation
Part Of Official Scheme? No
Geographic Reach Local
Primary Audience Industry/Business
Results and Impact Gave three 3 days of lectures/presentations to a group within CNPE working on deep borehole disposal. I was recognised as an international expert on this form of disposal. The company wished to learn as much as possible about my groups research activities - past and present - in this area. Each lecture/presentation was followed by an hour of discussion and debate. On the final day of the symposium, the company gave their own presentation outlining their research interests and then there was a session designed to generate ideas for collaboration. The company shared some ideas about a novel approach to deep disposal unique to China. I agreed to informally collaborate on this idea by conducting some scoping calculations. I also agreed to help arrange a visit of their scientists to the University of Sheffield and the National Nuclear Laboratory sometime in 2018.
Year(s) Of Engagement Activity 2017