Smart Energy and Sustainable Environment , ISSN 2668-957X
2022, Volume 25, Issue 1
Pages 5-14

https://doi.org/10.46390/j.smensuen.25122.443


ADVANTAGES AND CONSTRAINTS OF SPECIFIC AUTOCAD PLANT 3D FUNCTIONS FOR DYNAMIC MANAGEMENT - CASE STUDY FOR A HEAVY WATER DETRITIATION INSTALLATION AT CERNAVODA N.P.P.

Iulian Pavel Nita * , A. R. Olteanu , Camelia Coman , Hortensia Beznila

RATEN CITON, 409 Atomistilor Street, Magurele, Romania

*Corresponding author: Iulian Pavel Nita, E-mail: nitai@router.citon.ro

Received 15 December 2021 Received in revised form 18 March 2022 Accepted 29 March 2022 Available online 04 April 2022
OBSERVATION: The article is presented to the 23rd International Conference “New Cryogenic and Isotope Technologies for Energy and Environment" EnergEn 2021, Baile Govora, Romania, October 26-29, 2021


Abstract

The advantages and constraints of the specific Autocad Plant 3D functions for dynamic management - production of technological diagrams, isometrics, orthogonal views, bills of materials and piping system erection projects for the future detritiation facility at the Cernavodă Nuclear Power Plant (Cernavoda N.P.P.) are presented in a case study.

In last decades 3D modelling of the plant has been increasing used in design of new projects in nuclear power plant (NPP) both in design period but also in design changes required during life time and extended life time of a plant.

In the proposed case we developed a model to make an engineering design application for plant design incorporating disciplines such as piping, piping support, equipment, civil and steel structure. Using 3D Plant capabilities we can improve design process, interdisciplinary check-out as well as project execution.

The project could be updated after as built revision of isometric drawings in order to obtain a training model for the system to prepare plant operators to make scheduled and unscheduled maintenance and time estimation of different maintenance procedures that could be required during plant operation in order to reduce as low as reasonable possible dose received during detritiation installation maintenance.


References

Iulian Niţă, Rodica Pancef, (2021) Conceptual Design and Layout of the Cooling Towers Necessary to Remove Heat from the Condenser Secondary Circuit of the ALFRED Demonstrator Reactor, Foren 2020, Vol. 7, Issue 2, pp. 55-68, DOI: 10.37410/EMERG.2021.2.05

I.P. Nita, R. Pancef, Conceptual Design and Layout of AIR-COOLING Condensers (ACC) Required as Heat Sink for Alfred LFR Demonstrator Reactor, Nuclear 2022, pp. 161-168

Iulian Pavel Nita, Luminita Nitulescu, (2021) A Complete Pasive Safety System For CANDU 6- A Not Too Far Bridge (Un Sistem Complet Pasiv De Securitate Pentru CANDU 6 - Un Pod Nu Prea Indepartat), Simpozionul Român al Energiei – SIREN 2021, 6-8 septembrie 2021, on-line - EMERG 4/2021 Vol. 7, Issue 4, pp. 78-88, DOI: 10.37410/EMERG.2021.4.06

Iulian Pavel Nita, Luminita Nitulescu, Rodica Pancef, (2021) A Passive Safety System for CANDU6, The 13th Annual International Conference on Sustainable Development through Nuclear Research and Education, Nuclear 2021,  ISSN: 2066-2955, pp. 161-168

* * * Memoriu de prezentare- Lucrări de construire a instalatiei de detritiere apă grea - Societatea Natională NUCLEAR ELECTRICA S.A Mai 2019

www.autodesk.com

* * * Official Autodesk Training Guide – Introduction to Plant 3D Design


Keywords

Plant3D, Detritiation Installation


Tag search Plant3D Detritiation Installation