Apparently miscellanea of arguments are discussed in this paper but nevertheless all them are strictly related to safety of the DTT project. DTT should operate integrating all the reactor relevant physics and technology features, e.g. significant power loads, flexible divertors, plasma edge and core conditions approaching those of DEMO. The licensing process is discussed in the framework of the Italian law for which DTT will be classified as a radiogenic machine of category A. The guidelines for neutronics, fueling and pumping issues are highlighted. Finally, the cooling systems and the cryostat project are also illustrated. © 2017 Elsevier B.V.
The DTT device: Safety, fuelling and auxiliary system
Martone, R.;
2017
Abstract
Apparently miscellanea of arguments are discussed in this paper but nevertheless all them are strictly related to safety of the DTT project. DTT should operate integrating all the reactor relevant physics and technology features, e.g. significant power loads, flexible divertors, plasma edge and core conditions approaching those of DEMO. The licensing process is discussed in the framework of the Italian law for which DTT will be classified as a radiogenic machine of category A. The guidelines for neutronics, fueling and pumping issues are highlighted. Finally, the cooling systems and the cryostat project are also illustrated. © 2017 Elsevier B.V.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
