2017-12 - Combined SMR Systems GFA Final
Description
There seems a clear need for a methodology for evaluating the claims of ‘new’ reactor systems at a strategic level, to ensure that the claims of ‘good’ for the systems are considered alongside the ‘bad’ and the ‘ugly’. This should extend to examining which are the energy futures which will extract value from any given system’s characteristics, and which futures will reduce or remove a system’s attributes as drivers for deployment. The common method of comparing complex systems is to use Multi-Attribute Decision Analysis (MADA). In this method a group of attributes are defined to cover the main parameters of the systems, and scores are allocated depending on how well or badly a system performs. Not all parameters will be deemed to carry the same importance, so the ‘scores’ which have been compiled are ‘weighted’ by a set of ‘weighting values’, and the ‘weighted scores’ added to provide an overall ‘consolidated score’ for the particular system. In 2012-2013, the National Nuclear Laboratory developed a MADA system to examine nuclear power systems, based on 42 metrics derived from those used by the Generation IV International Forum. These were subsequently divided into seven groups (Cost, PRPP, Safety, Strategic, Deployability, Sustainability, Waste) and used to assess advanced reactor systems. The approach suffered from two main disadvantages: 1. The use of a MADA with a large number of metrics makes the result very difficult to communicate meaningfully, even to committed stakeholders – there is often a shared understanding by ‘those that were in the room for the analysis’, which fails to be transferable to others. 2. The suitability of a reactor system depends very strongly on ‘the world in which it must operate’. For example, high scores for uranium economy (e.g. fast reactors) should be highly weighted in a ‘uranium scarce’ future, but will not feature in a ‘uranium plentiful and cheap’ future. Subsequently, joint working by the Dalton Nuclear Institute, IDM and NNL addressed the weaknesses of the MADA approach to evolve the Generic Feasibility Assessment technique. The key change was the recognition that, in the UK and other states with well-established nuclear programmes, safety, environmental and proliferation/security attributes are all covered by well-developed regulatory regimes – so that reactor system deployment is not about “how safe, secure, and environmentally benign” a system is – but rather how much time and effort must be expended to allow the system to conform with this tried and tested regulatory framework. Generic Feasibility Assessment has been applied to several advanced reactor systems (see Nuclear System Assessment). GFA was also used on the assessment of Small and Modular Reactors using Emerging Technologies which was carried out for the Department of Energy and Climate Change by the National Nuclear Laboratory, Integrated Decision Management Ltd and Dalton in 2015/16 (see Techno-Economic Assessment).