1.Introduction
One of the key issues associated D&D of nuclear facilities is rational management of resulting wastes which consist mostly of LLW and VLLW. As the infrastructure and regulatory systems for radioactive waste management had initially been established for O&M wastes, a compatible system optimized for D&D wastes would be needed. A method to optimize the system is to use multi-functional container for packaging, transport and disposal with a view to maximize economics and efficiency and also minimize dose risks. The bulk amount of VLLW from D&D can be packaged in large capacity multi-purpose containers for direct disposal, instead of using the traditional drumbased system for O&M wastes, based on the additional classification of VLLW by IAEA, announced in 2009, applicable to the large amount of wastes arising from D&D [1].
A review of some global trend in packaging D&D wastes are as following:
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Soft bag containers
For practical and economic reasons, soft bags that had been previously used for garbage packaging has been adopted for VLLW management in the US, followed by Europe. The VLLW packaged in large size multi-functional soft bags are transported for landfill disposal. More recently, soft bags are introduced in Asia, in particular for packaging the soil wastes for temporary storage at such site around Fukushima [2].
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ISO containers
A pioneering example of transition from traditional drums to ISO containers had been the initiative taken by Croft Associate in the nineties in UK [3]. The large capacity ISO standard containers, transportable and disposable, have efficiently been used for managing the large amount of LLW, as highlighted by the Drigg repository. The UK example stimulated wider use of ISO containers for managing LLW and VLLW on global basis.
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Concrete container
Concrete containers have been used for strengthening structure, resistance to radiation and corrosion, compared to the steel container. A technical issue of the concrete containers for multi-purpose usage is transportability, due to the fragile property of concrete materials. This technical problem was alleviated by reinforcement with amorphous steel fibre in such transportable container as Sogefibre which was adopted by ANDRA in France and VUJE in Slovakia [4]. More recently, the Dounreay Site Restoration Ltd (DSRL) in Scotland has also launched a test use of a large concrete container of HHISO standard (14.7 m3) for on-site transport and disposal of LLW, alongside with the standard ISO containers in carbon steel [5]. This implies the possible direction of future development in concrete container with larger capacity for enhancement of not only of efficiency but also of safety.
Multi-purpose concrete container might emerge from ultra-high performance concrete (UHPC) technology. Albeit not yet been applied to radioactive waste packaging, the UHPC concrete bears potential to be competitive with the existing options [6].
Adopting of large capacity containers will also result in significant saving of disposal space, by dint of more compact packing of the containers in the repository than cylindrical drums in disposal containers.
1.1.Need for D&D Waste Management in Korea
Due to the impacts from Fukushima Accident, public debate on nuclear power has been mounting in Korea and the utility has recently decided no further extension of operational life of Kori #1 which is by consequence to be decommissioned in a decade. On the other hand, the Government has already launched, national plans for R&D, since several years, in technological preparation for the future D&D of NPPs and subsequent waste management. Korean nuclear industry has to prepare for the advent D&D of NPPs in the coming decades, together with suitable systems for management of radioactive wastes arising thereof.
1.1.1.Radioactive Wastes arising from D&D
The amount of radioactive wastes arising from D&D of nuclear power plants is not easy to estimate because of the assumptions made on various factors associated with plant operations. An estimate by KORAD on the cumulative amount of radioactive waste arising from nuclear power plants, both by O&M and D&D, projected to the year 2090 is given as Table 1 [7] :
This amount is based on an assumption for LLW/VLLW arising from D&D for a PWR unit of 900~1,300 MWe, which could be converted to a volume of 13,000 drums of 200 liters, with assumptions on packing densities for metal 2.3 ton/m3, for concrete 2.3 ton/m3, and for others 0.8 ton/m3 and packing rate 85% in drums.
Availability of waste repository is a prerequisite not only for disposal of radioactive wastes from O&M but also from D&D as well. In this context, the recently inaugurated Gyeongju repository is a critical national asset being operated by KORAD. At this initial phase of the repository operation, however, the system design is optimized for managing O&M wastes for LLW. With the advent need for managing D&D wastes in the longer term, appropriate optimization will be required for overall system design at the repository with special considerations for managing VLLW.
1.1.2.Needs for Optimization
The radioactive wastes arising from D&D of nuclear power plants have different features from those arising from O&M, in terms of form and content. The D&D wastes consist of predominant volume of VLLW, in contrast to O&M wastes which are predominant with LLW. Such difference should be considered in the future development of waste management system which had initially been built for managing O&M wastes.
Now that the national infrastructure for managing radioactive wastes having been built in Gyeongju, a careful consideration is to be given to the optimal plan for the future operation of the existing infrastructure. Considering the large amount of VLLW to arise from D&D, development of disposal facility for landfill burial of VLLW will be desirable, in addition to the vault type being planned for LLW disposal. For some D&D waste with shorter half-lives, temporary storage in the existing facility for adequate period of decay time, could be considered for later clearance.
1.2.Review of National Systems for Radioactive Waste Management
As the Gyeongju repository has just been built, as the core facility of national radioactive waste management system, the development of future waste management system will have to address the D&D waste management, as well as the current system which has focused thus far on O&M wastes.
1.2.1.Waste Packages
While there are a variety of waste packaging methods introduced in Korea, the basic method is to use the standard steel drum of 200 or 320 liter capacity which have been commonly used for packaging LLW arising from O&M of NPPs. Considering the difference of D&D wastes from O&M wastes, optimization of waste packages in consideration of both types of wastes will be desired at longer term.
1.2.2.Logistics for Managing D&D Wastes
In consideration of the nuclear power stations located at coastal shores, the infrastructure for O&M waste transportation system was built for sea transport from nuclear power plants to Gyeongju repository. The transport ship (Hanjin Cheonjeongnuri, see Fig. 1) has handling system of waste packages with the capacity limited to a weight of 7.5 MT and with transport container dimensions 3,400 (L)×1,600 (W)×1,200 (H) in mm unit. The transport container is made of steel and is loadable with 8 drums of the 200 liter capacity.
The transport container is dedicated only to transportation of the waste packages in drum to the repository, where it is unloaded for reuse (see Fig. 1).
Given such infrastructure, the dimension of the new multi-purpose container design for D&D wastes is to fit to the same dimensions and rigging as the existing transport container, in order to be able to use the existing handling systems at the harbor, the ship and the repository. Otherwise, a new design of the infrastructure would be required to be built in order to handle waste package of different designs (i.e. ISO container).
1.2.3.Disposal in the Repository
The design of radioactive waste repository at the Gyeongju site was initiated a decade ago when the current repository site was decided by local referendum. The first phase construction of the Gyeongju repository built is of silo type in tunnel, reflecting the primary concern for safe management of O&M wastes of LLW class. The waste drums transported to the repository is unloaded from the transportation container at the reception facility and upon inspection transferred into a disposal container, made of concrete, which can be loaded with 16 drums.
The possibility of disposal of D&D wastes at the Gyeongju repository can be reviewed for each of the following classes of new classification system:
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ILW
The disposal of ILW wastes, arising both from O&M and D&D of nuclear facilities, is still controversial about the optimal disposal measures in Korea and abroad. In view of the relatively small amount of ILW, but higher hazard requiring deeper isolation, most of the ILW wastes are in general stored at the source site for future solutions.
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LLW
The LLW packages from O&M are the main stream of radioactive wastes to be disposed of in the Gyeongju repository of silo type. The suitability of disposing D&D wastes of LLW class in this silo is an issue to study, however, due to the high cost of disposal being charged to the O&M wastes. It will also depend on the optimal design of the disposal packages of D&D wastes for which large capacity multi-purpose packages are considered to be more economical. If it proves to be better to dispose of the D&D wastes in larger containers of ISO standard, the current infrastructure of the repository and transport may better be designed for such new system than retrofitting to the existing system.
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VLLW
With the emerging need for managing D&D wastes, a strategy for harmonizing the infrastructure for wastes from different sources is thus called for. One of the key strategy would be the consideration for the large amount of VLLW arising from D&D, with little hazard, compared to O&M wastes.
Having recognized the need for D&D waste management in the future, KORAD has been elaborating a plan for land use at the Gyeongju repository site (Fig. 2). Currently, a plan for developing shallow land disposal in engineered barrier is being implemented for LLW [8].
KORAD has a rough plan for further stages of landfill disposal for the large amount of VLLW to arise from D&D. In view of the cost optimization, a suitable place adjacent to the existing facilities would need to be secured in the future (In reference to other countries having already disposed of large amount of VLLW, waste packaging in soft bag container disposal in surface burial would be adequate at such site).
1.3.New Systems for D&D Waste Management
There are two options that can be considered for future transportation of D&D wastes : use the existing infrastructure, or develop a new system additionally to the existing system. In addition to the established infrastructure for radioactive waste transportation, some new system concept for managing D&D waste packages can be developed, if justifiable by consideration of relevant criteria, such as :
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A possibility to come up with a container which is compatible with the existing infrastructure for O&M waste management. This container can be optimized, for future management of D&D wastes.
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An alternative to the existing system by adopting of ISO freight containers which has been widely used in the US and in Europe.
In this study, a steel container design for the former and another for the latter have been proposed, as to be described later part.
1.4.Container Development
Initially developed by the reactor vendors for managing radioactive wastes, steel drums of 200 or 320 liters are widely used around the world as the basic unit for O&M wastes arising from nuclear facilities. Korea was no exception in the global trend adopting the drum as a basis for packaging LLW from PWRs. However, the small drums are not efficient for packaging D&D wastes of which radioactivity levels are in general lower while quantities are large.
An important consideration on the concept of container, especially for D&D waste package, is multiple functions of the container. As reviewed previously, the current system is designed for single purpose: dedicated container for transportation and disposal, respectively. If the container is designed to be multi-purpose, the waste package can be directly transported and disposed of in the repository, on the condition of compliance with all the safety requirements, with consequent benefits in economics, efficiency, and dose reduction.
2.Development of Standard Containers
Containers are the basic unit to make waste package and therefore play a critical role as a barrier against release of radioactive substances from the package during storage, transport, and disposal. The waste package should comply with relevant requirements for safety and efficiency set forth for each of the required operations. It’s up to the waste operator to come up with the most optimal container in compliance with the relevant requirements of the regulatory authority.
In the context of D&D waste management, the following types of multi-purpose containers have been proposed by KONES for the container development project:
Among the three types of containers, the soft bag and steel containers have been developed during 2014-2015. Based on optimized concepts a set of containers for prototypical demonstration were designed [9].
2.1.Soft bag
Soft bag as a container for VLLW has recently become popular in the global market for D&D waste management, mainly for efficient and cost-effective packaging. Given the large amount of concrete rubbles, and possibly contaminated soils, of VLLW class arising from D&D, soft bags can be widely used for multi-purpose packaging for transport and disposal. While experience with soft bag disposal is limited, recent developments expect its usage for IP2, to be competitive with ISO containers, with the added benefit of not needing grouting [10].
Having noticed such trends, KONES has developed the soft bag for domestic production. The dimensions of the soft bag developed are 1,000×1,000×1,000 in mm and the weight is 1,200 kg (with content). The container is made of synthetic fiber with triple barriers and fixed with belts around the 4 faces and a cover with a couple of zippers (Fig. 3).
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The outer wrap is made of woven fabric of polypropylene outside of which is coated with liquid propylene for anti-moisture.
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The inner barrier is non-woven fabric of PET (polyethylene terephthalate) for dampening of internal impacts inside of which is coated with polyurethane. Upper cover is also fitted with a couple of zippers.
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The inner envelope consists of HDPE vinyl sheets in double layer, with the inner side reinforced for resistance with contact for wastes. It can completely wrap around the opening of the soft bag (Fig. 4).
2.2.Steel Containers
As previously reviewed, a couple of options can be foreseen for development of logistics for D&D waste management : either use of existing infrastructure built initially for O&M wastes, or develop a new system optimized for D&D wastes. In consideration of these cases, a set of two containers were developed as following:
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An IP2 type steel container which is compatible with the existing transport container for sea transport.
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Another ISO type steel container of half-height standard (HHISO) for truck transport on road.
While the former is compatible with the established logistical system, the concept behind the container design is different from the current transport container. The IP2 container is for multi-purpose, and thus is directly disposable in the repository. It is based on the scenario that this kind of D&D waste package would be disposed of in the LLW vault being planned, or in a new VLLW repository to be developed.
The ISO container of the latter case is a new design dedicated for D&D waste management, either for truck transport on road (or sea transport with a new infrastructure if developed) although there have been some limited usages of ISO container for radioactive waste in Korea. Just as the IP2 container, the proposed ISO container is multi-purpose that is directly disposable in the repository.
Both of the steel containers make use of stillage for handling and fixing wastes in the container. The use of stillage is a technical feature of the container to deal with a variety of different waste forms to be packaged in the container. A variety of stillage designs could be used for handling different kind of waste forms and contents (Fig. 5).
The body and cover of the IP2 and ISO containers are made of carbon steel (SS 400). The container body is structurally reinforced by supportive frame (SPSR 400) and the cover to be bolted on the body is lined on the corners with bumper material of rubber (EPPM).
The specifications of the ISO containers are summarized in Table 2.
The containers have two pockets in the floor of the container frame for handling of the containers by fork lift. For fixing the stillage on the floor or the containers on the truck twist locks are used.
An important issue in the consideration of D&D waste container is adherence to the industrial standards, especially to the ISO standards for freight containers. This is especially the case for Korea considering the need for transportation of the waste packages by ship due to the siting of NPPs at coastal locations. The implications of such international standards to handle and transport D&D waste packages are well known. Aside from the economic advantage of using competitively available commodity at large quantities, the international safety standard on shipping (CSC) can be beneficial feature for system compatibility in marine transportation. It is also quite common to see abroad used ISO containers reused for direct disposal of waste packages.
2.3.Concrete containers
For some D&D waste of higher level radioactivity, shielding of waste packages by the steel containers may not be adequate. In such case, additional shielding with concrete materials may have to be required.
As indicated above, the interesting technology of UHPC could lead to development of multi-purpose concrete containers, which will require substantial efforts for engineering and tests.
3.Results of Container Developments
In the second year of project implementation, KONES has focused on the development of two types of containers for the D&D waste management:
3.1.Soft Bag
In reference to the UK development in soft bag, the prototype product developed was tested under the applicable safety requirements [11] Table 3.
A summary of the tests is given below.
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Stacking: Applying 5 times of the loaded weight (i.e., 1.2 t) which is 6 t, the test demonstrates the soft bag resisted up to 7.1 t.
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Drop: The applicable drop height of 1.2 m with loaded (sand) weight of 1.2 t was tested at various angles as required.
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Lifting: A lifting test with 3 time the loaded weight (1.2 t) was conducted successfully for 3.6 t.
In addition to these basic tests, operational tests with various conditions were successfully conducted in compliance with the safety requirements (Fig. 6).
3.2.Steel Containers
For the steel containers, the IP2 model was analyzed by simulations to check compliances with safety requirements.
The key requirements applicable to the safety of the container (NSSC Decree No. 2014-50, article 24-2) can be summarized as following:
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Containment of radioactivity (lid opening below 100 % is regarded as no loss of content).
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Shielding of radiation (loss of shielding should not cause more than 20% of dose rate to external surface).
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Structural integrity (drop, stacking, lifting, locking) should be maintained at conditions of test requirements.
The analyses were conducted by finite element method (FEM) by use of ABAQUS 6.10. A friction coefficient of 0.2 was assumed for contacts between steel parts, with contact conditions (General Contact) provided by ABAQUS. The dynamic analysis was based on initial velocity and drop impacts for the IP2 container design (Fig. 7).
Based on the FEM analysis modeling of each part and center of gravity, the results of the analysis by simulations of the IP2 containers can be summarized as the Table 4.
The duration of the stacking test is 24 hours. As to the drop analysis, stress limits were calculated to be the ultimate (or true) stress of physical break point, based on the NSSC Notice No. 2014-50 which requires no loss of content from the container due to the drop (without any numerical specification for IP2 container). As each of the local maximum stress in the Table 4 is not critical to the overall structural safety of the container, respective values in the table have adequate safety margin with respect to the Stress Limits (full report on the analysis in Reference 9).
4.Future Plans
This paper gave the results of the second year of R&D project, as conducted by KONES Corporation, for development of containers for D&D waste management. Future plans for the project are as following.
4.1.Steel Containers
A prototype of IP2 steel container was fabricated for later tests to check compliance with safety requirements. In reference to the simulation results, physical tests are to be conducted for the prototype container.
Simulation of HHISO container is to be conducted in 2016, to be followed by safety tests with prototype fabrication.
Appropriate preparations are undergoing for later tests of these steel containers.
4.2.Concrete Containers
Concrete containers have been in development for optimal design and tests. A review of the past development of concrete containers was conducted, with special focus on multi-functional applications, such as the use of Sogefibre product and possible development of Ductal type UHPC container in France [12]. It was revealed from the review that the recent development of UHPC also in Korea might provide a new way to develop multi-purpose concrete containers that could be competitive to other type of materials such as steel [13].
A prototype of UHPC container is in plan for development in 2016, in a step behind to the developmental activities of steel containers. The result of this development is due to the 2015-2016 time frame.
5.Conclusion
The study revealed that radioactive wastes arising from D&D of nuclear facilities bear very different features from those arising from O&M. It is therefore desirable to develop containers that are optimized for rational management of D&D wastes, for which KONES conducted a R&D project for container development.
The category of radioactive wastes arising from D&D of nuclear facilities could be packaged in containers of the following type:
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Majority of VLLW and some lower level of LLW of D&D wastes can be packaged in soft bags for transport and disposal (ample examples in the US and Europe).
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In pursuit of compatibility with the existing system for radioactive waste management, however, a multi-purpose steel IP2 container which is compatible with the current system for radioactive waste management of Gyeongju repository is developed, and an alternative design with ISO standards for road transport was developed.
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Multi-purpose containers with concrete materials can be developed based on the recent development of ultra-high performance concrete which could be competitive to steel containers.
The use of large capacity containers, in lieu of small capacity drums, can maximize system O&M efficiency and consequently reduce dose to workers, as well as the significant savings in the repository volume by reduction of idle space between drums in the disposal container.
Regarding the need for standardization, adoption of ISO standard is the recommended option for the following rationales:
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The advantages of ISO containers in compliance with the industrial standards can be adopted for the multipurpose packaging for transport, storage and disposal. On the other hand, ISO container of reusable type has the versatility to load with untreated and treated wastes.
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Strategy for future market in compliance with national and international industrial requirements for freight transactions.
Several container models for D&D waste management is being conceived for development, based on these rationales in the framework of this development by KONES Corporation.