APOLLO3®: Overview of the new code capabilities for reactor physics analysis
Pietro Mosca
(1)
,
Lahbib Bourhrara
(1)
,
Ansar Calloo
(1)
,
Andrea Gammicchia
(1)
,
Franck Goubioud
(1)
,
Li Lei Mao
(1)
,
François Madiot
(1)
,
Fadhel Malouch
(1)
,
Emiliano Masiello
(1)
,
Frederic Moreau
(1)
,
Simone Santandrea
(1)
,
Daniele Sciannandrone
(1)
,
Igor Zmijarevic
(1)
,
Elias-Yammir Garcia-Cervantes
(2)
,
Giorgio Valocchi
(2)
,
J-Francois Vidal
(2)
,
Frédéric Damian
(3)
,
Pierre Laurent
(4)
,
Adrien Willien
(4)
,
Alberto Brighenti
,
Laurent Graziano
,
Barbara Vezzoni
Ansar Calloo
- Fonction : Auteur
- PersonId : 1083707
- IdHAL : acalloo
- ORCID : 0000-0002-0690-0371
Emiliano Masiello
- Fonction : Auteur
- PersonId : 1187882
- IdHAL : emiliano-masiello
- ORCID : 0000-0003-3746-9016
Alberto Brighenti
- Fonction : Auteur
Laurent Graziano
- Fonction : Auteur
Barbara Vezzoni
- Fonction : Auteur
Résumé
APOLLO3® is the French deterministic code for lattice and core calculations, it is developed at the CEA with the financial and technical support of EDF and Framatome since 2007.
The main goal of APOLLO3® is the development of a unique deterministic tool which includes the capabilities of lattice and core French codes of previous generation, e.g. APOLLO2, CRONOS2, ECCO and ERANOS, while providing large improvements on reactor physical modeling in a modern and flexible software architecture platform for R&D and industrial activities.
This paper presents an overview of the new main capabilities of the deterministic APOLLO3® code in the lattice and core components.