Radionuclide Source Term for Irradiated Fuel from Prototype, Research and Education Reactors, for Waste Forms with Negligible Heat Generation and for Uranium Tails von Bernhard Kienzler | ISBN 9783866449640

Radionuclide Source Term for Irradiated Fuel from Prototype, Research and Education Reactors, for Waste Forms with Negligible Heat Generation and for Uranium Tails

von Bernhard Kienzler, Marcus Altmaier, Christiane Bube und Volker Metz

Mitwirkende
Autor / Autorin	Bernhard Kienzler
Autor / Autorin	Marcus Altmaier
Autor / Autorin	Christiane Bube
Autor / Autorin	Volker Metz

Buchcover Radionuclide Source Term for Irradiated Fuel from Prototype, Research and Education Reactors, for Waste Forms with Negligible Heat Generation and for Uranium Tails | Bernhard Kienzler | EAN 9783866449640 | ISBN 3-86644-964-X | ISBN 978-3-86644-964-0

Radionuclide Source Term for Irradiated Fuel from Prototype, Research and Education Reactors, for Waste Forms with Negligible Heat Generation and for Uranium Tails

von Bernhard Kienzler, Marcus Altmaier, Christiane Bube und Volker Metz

Mitwirkende
Autor / Autorin	Bernhard Kienzler
Autor / Autorin	Marcus Altmaier
Autor / Autorin	Christiane Bube
Autor / Autorin	Volker Metz

Radionuclide source terms are derived for different disposal options of a potential final repository in the salt dome Gorleben. The geochemical conditions are analyzed under the precondition that NaCl, MgCl2- or CaCl2-rich solutions are present. Kinetic and thermodynamic mobilization/retention and the influence of temperatures are discussed. Upper limit concentrations for the radionuclides Am, Th, U, Np, Pu, Tc, Zr and rare earth elements are derived for the simplified scenarios.