English: "Authors’ elaboration based on the dataset presented in the Supplementary Data. bn, billion; ARG, Argentina; ARM, Armenia; AZE, Azerbaijan; BDI, Burundi; BGD, Bangladesh; BGR, Bulgaria; BLR, Belarus; BOL, Bolivia; BRA, Brazil; CHL, Chile; CHN, China; COD, Democratic Republic of the Congo; COG, Republic of the Congo; CRI, Costa Rica; CUB, Cuba; DOM, Dominican Republic; DZA, Algeria; EGY, Egypt; ESP, Spain; ETH, Ethiopia; FIN, Finland; GBR, Great Britain; GHA, Ghana; HUN, Hungary; IDN, Indonesia; IND, India; IRN, Iran; JOR, Jordan; KAZ, Kazakhstan; KEN, Kenya; KGZ, Kyrgyzstan; KHM, Cambodia; KWT, Kuwait; MNG, Mongolia; NGA, Nigeria; PHL, Philippines; POL, Poland; PRY, Paraguay; RUS, Russia; RWA, Rwanda; SAU, Saudi Arabia; SDN, Sudan; SRB, Serbia; SVK, Slovakia; SWE, Sweden; TUN, Tunisia; TUR, Turkey; TZA, Tanzania; UAE, United Arab Emirates; UGA, Uganda; UKR, Ukraine; UZB, Uzbekistan; VNM, Vietnam; ZAF, South Africa; ZMB, Zambia. Technical details are provided in Methods."
"Database construction
To build a comprehensive database of Rosatom projects, we created a hierarchy of data sources to ensure the inclusion of the most valid data59,60,61,62,63. Rosatom annual reports for 2015–2021 formed the starting point for the data gathering and enabled us to establish a preliminary list of all Rosatom projects outside Russia. The annual reports are information rich but also contain gaps and discrepancies that we used other data sources to resolve. The Power Reactor Information Systems database maintained by the International Atomic Energy Agency helped fill many of the gaps, but some uncertainties remained. To eliminate them, we used the World Nuclear Association website, the NucNet portal and academic papers and reports. In the final stage of data gathering, we filled in the still-missing information (mainly project costs) using information from the mass media and press releases. The resulting data cover 108 operating, constructing, planned, contracted, proposed or cancelled Russian-made nuclear reactors and nuclear centres, fuel supplies, cooperation agreements and MoUs.
Operationalization of energy dependence
We operationalized energy dependence in terms of the share of Russian-supported nuclear power in the future electricity mix of client states. This is visualized as pie charts in Fig. 1. For the purpose of this projection, we treat all planned projects as possible to realize, so it is to be understood as a max scenario. The share was estimated by summing up the capacity of existing and planned Russian-supported nuclear power plants, adjusting for the capacity factor and relating the resulting power generation to the projected national electricity supply in 2040. We used Rosatom’s own estimation of the average capacity factor of Russian nuclear power plants, 0.798 (ref. 64). Estimates of the national electricity supply in 2040 are taken from the IEA’s regional projections65, adapted to the individual countries in which Russian nuclear power plants are planned. Although, inevitably, not all discussed or planned reactors will be completed, this measure is a way of profiling the potential future dependence of individual client states on Rosatom-designed, -operated and/or -owned reactors for power production and the potential risks this involves.
Intensity of international nuclear cooperation
To add another dimension to energy security, we introduce the concept of the intensity of international nuclear cooperation. This is represented by the shading of countries in the map in Fig. 1, with the underlying scores listed in Table 2. The shading is based on a composite score that is calculated according to the scorecard in Table 3."