This project represents a collaborative R&D programme in the field of HTR-related nuclear physics, waste and fuel cycle studies (HTR-N) and is funded by the European Commission in the HTR-N and HTR-N1 contracts of the 5th Framework Programme (FP5). The paper illustrates the nuclear physics analyses of first criticality of the Japanese High-Temperature Test Reactor (HTTR) and of the Chinese 10 MWth High-Temperature Reactor (HTR-10). Reasons for discrepancies in the predictions of critical core configuration of HTTR are explained. Further activities deal with different fuel cycles aimed at effective burning of plutonium and minor actinides. First studies, for first generation plutonium (Pu-I) from reprocessed LWR uranium fuel, show that it is...
The current paper reports the results of gamma spectroscopic burn-up determination and KüFA safety t...
This thesis examines potential of thorium as a nuclear fuel for High Temperature Reactors (HTRs). I...
The High Temperature Reactor (HTR) is the subject of a number of national and international research...
The high-temperature gas-cooled reactor (HTGR) appears as a good candidate for the next generation o...
The high-temperature gas-cooled reactor (HTGR) appears as a good candidate for the next generation o...
At present, the 125 GWe of nuclear power in the European Union produce about 3000 tons of spent fuel...
Within the Generation IV International Forum (GIF), considerable efforts are devoted in Europe to re...
The work presented in this thesis covers three fundamental aspects of High Temperature Reactor (HTR)...
Ten years ago, the European High Temperature Reactor (HTR) Technology Network (HTR-TN) launched a pr...
Nowadays nuclear is the only greenhouse-free source that can appreciably respond to the increasing w...
It is already 10 years since the (European) High Temperature Reactor Technology Network (HTR-TN) lau...
Nowadays nuclear is the only greenhouse-free source that can appreciably respond to the increasing w...
The Deep Burn (DB) Project is a U.S. Department of Energy sponsored feasibility study of Transuranic...
Preliminary analyses already performed showed that innovative GCRs, both thermal and fast, are very ...
The Deep Burn (DB) Project is a U.S. Department of Energy sponsored feasibility study of Transuranic...
The current paper reports the results of gamma spectroscopic burn-up determination and KüFA safety t...
This thesis examines potential of thorium as a nuclear fuel for High Temperature Reactors (HTRs). I...
The High Temperature Reactor (HTR) is the subject of a number of national and international research...
The high-temperature gas-cooled reactor (HTGR) appears as a good candidate for the next generation o...
The high-temperature gas-cooled reactor (HTGR) appears as a good candidate for the next generation o...
At present, the 125 GWe of nuclear power in the European Union produce about 3000 tons of spent fuel...
Within the Generation IV International Forum (GIF), considerable efforts are devoted in Europe to re...
The work presented in this thesis covers three fundamental aspects of High Temperature Reactor (HTR)...
Ten years ago, the European High Temperature Reactor (HTR) Technology Network (HTR-TN) launched a pr...
Nowadays nuclear is the only greenhouse-free source that can appreciably respond to the increasing w...
It is already 10 years since the (European) High Temperature Reactor Technology Network (HTR-TN) lau...
Nowadays nuclear is the only greenhouse-free source that can appreciably respond to the increasing w...
The Deep Burn (DB) Project is a U.S. Department of Energy sponsored feasibility study of Transuranic...
Preliminary analyses already performed showed that innovative GCRs, both thermal and fast, are very ...
The Deep Burn (DB) Project is a U.S. Department of Energy sponsored feasibility study of Transuranic...
The current paper reports the results of gamma spectroscopic burn-up determination and KüFA safety t...
This thesis examines potential of thorium as a nuclear fuel for High Temperature Reactors (HTRs). I...
The High Temperature Reactor (HTR) is the subject of a number of national and international research...