Search

Your search keyword '"Artioli, C."' showing total 21 results
Start Over Author "Artioli, C." Language english
21 results on '"Artioli, C."'

5. Status and Trend of Core Design Activities for Heavy Cooled Accelerator Driven System

Author

Rimpault, G., De Bruyn, D., Abderrahim, H. Ait, Maschek, W., Schickorr, M., Struwe, D., Cinotti, L., Mansani, L., Monti, S., Gherardi, G., Burn, K. W., Artioli, C., Bianchi, F., Rimpault, G., De Bruyn, D., Abderrahim, H. Ait, Maschek, W., Schickorr, M., Struwe, D., Cinotti, L., Mansani, L., Monti, S., Gherardi, G., Burn, K. W., Artioli, C., and Bianchi, F.

Subjects
Analisi sistemi e di sicurezza
Abstract

During the 5th Framework Program (FP5) the European Commission (EC) funded the PDS-XADS project (Preliminary Design Studies on an eXperimental Accelerator Driven System) mainly devoted to the demonstration of the feasibility of the coupling among an accelerator, a spallation target and a sub-critical core, and to preliminarily investigate the possibility of enhancing the transmutation rates for achieving values suitable for an Industrial Scale Transmuter.The on-going activities of the FP6 EUROTRANS integrated project (EUROpean research programme for TRANSmutation of high level nuclear waste in an accelerator driven system) are in continuity with the PDS-XADS project objectives, but with a significant change for what concerns the final goal in terms of demonstration level. In fact they are oriented to both the design of an industrial-scale transmuter (EFIT) and a small experiment facility (XT-ADS), serving as a test bench for as much component technologies as possible in a realistic irradiation environmentThe paper describes the main results of the design activities for the large and small LBE-cooled cores performed within PDS-XADS and discusses the constraints (e.g. those deriving from the spallation target and the accelerator), the requirements (such as the degree of subcriticality when operating at power as well as during refuelling), the design criteria and choices with the purpose to verify their applicability to new designs (EFIT, XT-ADS).

Published
2005

10. General Synthesis Report of the Different ADS Design Status. Establishment of a Catalogue of the R&D needs

Author

Rimpault, G., Richard, Patrick, Mansani, L., Frogheri, F., Woaye-Hune, A., Ehster-Vignoud, S., Larmignat, S., Mueller, A., Jean-Luc BIARROTTE, Artioli, C., Glinatsis, G., Schikorr, M., Struwe, D., Maschek, W., Bruyn, D., Maes, D., Den Eynde, G., Sobolev, V., Wallenius, J., Guertin, Arnaud, Angulo, C., Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Ansaldo Nucleare, AREVA, Groupe AREVA, Centre National de la Recherche Scientifique (CNRS), Agenzia Nazionale per le nuove Tecnologie, l’energia e lo sviluppo economico sostenibile = Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA), FZK GmbH, Centre d'Etude de l'Energie Nucléaire (SCK-CEN), Royal Institute of Technology [Stockholm] (KTH ), Laboratoire SUBATECH Nantes (SUBATECH), Mines Nantes (Mines Nantes)-Université de Nantes (UN)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Tractebel Engineering SA, EURATOM, European Project: 516520,EUROTRANS, Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Nantes (UN)-Mines Nantes (Mines Nantes), and European Project: 39135,EUROTRANS

Subjects
ADS design, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Transmutation, EUROTRANS
Abstract

This document is a General Synthesis Report of the Different ADS Design Status being designed within the EUROTRANS Integrated Project; an FP6 European commission partially funded programme. This project had the goal to demonstrate the possibility of nuclear waste transmutation/burning in Accelerator Driven Systems (ADS) at industrial scale.The focus is on a Pb-cooled ADS for the European Facility on Industrial scale Transmuter (ETD/EFIT) with a back-up solution based on an He cooled ADS.As an intermediate step towards this industrial-scale prototype, an eXperimental Transmuter based on ADS concept (ETD/XT-ADS) able to demonstrate both the feasibility of the ADS concept and to accumulate experience when using dedicated fuel sub-assemblies or dedicated pins within a MOX fuel core has been also studied.The two machines (XT-ADS and Pb cooled EFIT) have been designed in a consistent way bringing more credibility to the potential licensing of these plants and with sufficient details to allow definition of the critical issues as regards design, safety and associated technological and basic R&D needs. The different designs fit rather well with the technical objectives fixed at the beginning of the project in consistency with the European Roadmap on ADS development.For what concerns the accelerator, the superconducting LINAC has been clearly assessed as the most suitable concept for the three reactors in particular with respect to the stringent requirements on reliability. Associated R&D needs have been identified and will be focused on critical components (injector, cryomodule) long term testing.The design of the different ADS has been performed in view of what is reasonably achievable pending the completion of R&D programmes. The way the EUROTRANS Integrated Project has been organised with other domains than the DM1 Design being specifically devoted to R&D tasks in support to the overall ETD/EFIT and ETD/XT-ADS design tasks has been helpful. The other domains were centred on the assessment of reactivity measurement techniques (DM2 ECATS), on the development of U-free dedicated fuels (DM3 AFTRA), on materials behaviour and heavy liquid metal technology (DM4 DEMETRA) and on nuclear data assessment (DM5 NUDATRA). Pending questions associated to technology gaps have been identified through the different appropriate R&D work programmes and a Catalogue of the R&D needs has been established.Finally, the work within the EUROTRANS integrated project has provided an overall assessment of the feasibility at a reasonable cost for an ADS based transmutation so that a decision can be taken to launch a detailed design and construction of the intermediate step Experimental ADS now already launched within the 7th FP programme under the name of Common Design Team (CDT).

Published
2010

11. Achievements and lessons learned within the Domain 1 'DESIGN' of the IP_EUROTRANS Integrated Project

Author

Bruyn, D., Aït Abderrahim, H., Rimpault, G., Mansani, L., Reale, M., Müller, A., Guertin, Arnaud, Jean-Luc BIARROTTE, Wallenius, J., Angulo, C., Orden, A., Rolfe, A., Struwe, D., Schikorr, M., Woaye-Hune, A., Artioli, C., Laboratoire SUBATECH Nantes (SUBATECH), and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Nantes (UN)-Mines Nantes (Mines Nantes)

Subjects
[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2010
Full Text
View/download PDF

15. DM1 DESIGN: Development of a Detailed Design of XT-ADS and of a Conceptual Design of EFIT with Heavy Liquid Metal Cooling

Author

Abderrahim, H.A., Rimpault, G., Mansani, L., Giraud, B., Artioli, C., Mueller, A., Guertin, Arnaud, Wallenius, J., Struwe, D., Orden, A., Pirson, J., Rolfe, A., CEA, Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Laboratoire SUBATECH Nantes (SUBATECH), Mines Nantes (Mines Nantes)-Université de Nantes (UN)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Nantes (UN)-Mines Nantes (Mines Nantes)

Subjects
[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]
Abstract

International audience; The domain DM1_DESIGN of the FP6 integrated project EUROTRANS has the mission to launch the conceptual design of a lead-alloy-cooled European Facility for Industrial Transmutation (EFIT) loaded with transmutation-dedicated minor actinide fuel to “prove” transmutation at the industrial level. EFIT would represent a modular unit of a large power system able to handle European high-level waste. In parallel to the EFIT design, DM1_DESIGN partners are developing a detailed design of the short-term XT-ADS (eXperimental demonstration of Transmutation in an Accelerator Driven System) that would serve the full-scale demonstration of the ADS concept and be able to accept up to a full MA fuel assembly. XT-ADS is also intended to serve as a test banc for some components of EFIT. The Work Plan of the domain DM1_DESIGN addresses the following main issues of EFIT and XT-ADS: Definition of the design parameters for the optimisation of the transmutation objectives in an economical way for EFIT and the short-term realisation for XT-ADS including the most essential features of EFIT. Development and assessment of the reference Pb design of EFIT and the back-up option based on gas. In parallel and in a synergetic way XT-ADS with only Pb-Bi reference design is developed in a more detailed manner. Further development of the high-power proton accelerator (HPPA) needed for both EFIT and XT-ADS and, in particular, qualification of the beam reliability, the development of the beam transport line and the demonstration of the prototypical components of the chosen HPPA. Proof of feasibility windowless spallation targets making maximum use of the existing work for defining the needed complementary experimental work for XT-ADS spallation targets. Evaluation of the safety performance and licensability of the three designs developed in the DOMAIN DM1. Cost estimates and planning issues for the deployment of the transmutation facilities. In this paper we give the progress accomplished in these different work packages and present the first results obtained after 18 months of activity.

Published
2006

16. THE EUROPEAN LEAD-COOLED EFIT PLANT: AN INDUSTRIAL-SCALE ACCELERATOR-DRIVEN SYSTEM FOR MINOR ACTINIDE TRANSMUTATION--I.

Author

Mansani, L., Artioli, C., Schikorr, M., Rimpault, G., Angulos, C., and De Bruyn, D.

Subjects
*NUCLEAR reactors, *ACCELERATOR-driven systems, *ELECTRONIC circuit design, *ACTINIDE elements, *ELECTRIC power failures, *TRANSMUTATION (Chemistry)
Abstract

In order to reduce the volume and the radiotoxicity of the nuclear waste coming from the operation of existing pressurized water reactors, accelerator-driven systems (ADSs) have been envisioned. The Lead-Cooled (Pb) European Facility for Industrial-Scale Transmutation (EFIT) (Pb-EFIT) plant is the first ADS design that has been going into a rather detailed engineering level. It is a lead-cooled, 385-MW(thermal) ADS prototype for minor actinide (MA) transmutation designed to achieve an optimal MA destruction rate of ~42 kg/TW⋅h(thermal). The spallation target unit is located in the center of the diagrid where 800-MeV protons from the accelerator impinge on a free surface of lead exposed to vacuum. The core inlet temperature was set at 400°C to assure a sufficiently large safety margin to lead freezing, and the core outlet temperature was limited to 480°C to allow acceptable corrosion. The ferritic-martensitic 9% Cr steel T91 protected against corrosion with alumina FeCrAlY [GESA (Gepulste Elektronen Strahl Anlage) treatment]. The primary circuit is designed for effective natural circulation, i.e., relatively low pressure losses, and the design offers good protection for a heat removal system in case of a blackout accident. The EFIT plant is designed to have a low likelihood and a low degree of core damage, to eliminate the need for off-site emergency responses in case of a severe accident, to use an extensively reliable passive safety system to fulfill the safety functions, and to eliminate the need of alternating-current safety-grade power (no safety-grade diesel generator). Three systems contribute to the decay heat removal (DHR) function of Pb-EFIT: the steam generators, the direct reactor cooling system, and the isolation condenser system. The EFIT plant exhibits four primary pumps; eight steam generator units, each rated at 52 MW, provide heat removal under normal operation. On the secondary side, the water steam ensures a thermal efficiency of ~40% with the superheated vapor secondary circuit, taking into account the electricity required by pumps (from both the primary circuit and the secondary circuits) but without deducing the power required for the accelerator. An estimate of the Pb-EF1T plant cost has been performed based mainly on experience and engineering judgment. A best estimate (base cost and contingency) of about 1890 million, with an overall uncertainty of 22%, has been found. [ABSTRACT FROM AUTHOR]

Published
2012
Full Text
View/download PDF

18. Heterogeneous fuels for minor actinides transmutation: Fuel performance codes predictions in the EFIT case study

Author

Calabrese, R., Vettraino, F., Artioli, C., Sobolev, V., and Thetford, R.

Subjects
*INHOMOGENEOUS materials, *NUCLEAR fuels, *ACTINIDE elements, *TRANSMUTATION (Chemistry), *PERFORMANCE evaluation, *PARTICLE accelerators, *COMPARATIVE studies, *RADIOACTIVE waste canisters
Abstract

Abstract: Plutonium recycling in new-generation fast reactors coupled with minor actinides (MA) transmutation in dedicated nuclear systems could achieve a decrease of nuclear waste long-term radiotoxicity by two orders of magnitude in comparison with current once-through strategy. In a double-strata scenario, purpose-built accelerator-driven systems (ADS) could transmute minor actinides. The innovative nuclear fuel conceived for such systems demands significant R&D efforts in order to meet the safety and technical performance of current fuel systems. The Integrated Project EUROTRANS (EUROpean research programme for the TRANSmutation of high level nuclear waste in ADS), part of the EURATOM Framework Programme 6 (FP6), undertook some of this research. EUROTRANS developed from the FP5 research programmes on ADS (PDS-XADS) and on fuels dedicated to MA transmutation (FUTURE, CONFIRM). One of its main objectives is the conceptual design of a small sub-critical nuclear system loaded with uranium-free fuel to provide high MA transmutation efficiency. These principles guided the design of EFIT (European Facility for Industrial Transmutation) in the domain DESIGN of IP EUROTRANS. The domain AFTRA (Advanced Fuels for TRAnsmutation system) identified two composite fuel systems: a ceramic–ceramic (CERCER) where fuel particles are dispersed in a magnesia matrix, and a ceramic–metallic (CERMET) with a molybdenum matrix in the place of MgO matrix to host a ceramic fissile phase. The EFIT fuel is composed of plutonium and MA oxides in solid solution with isotopic vectors typical of LWR spent fuel with 45MWd/kgHM discharge burnup and 30years interim storage before reprocessing. This paper is focused on the thermomechanical state of the hottest fuel pins of two EFIT cores of 400MW(th) loaded with either CERCER or CERMET fuels. For calculations three fuel performance codes were used: FEMALE, TRAFIC and TRANSURANUS. The analysis was performed at the beginning of fuel life. Presented results were used for testing newly-developed models installed in the TRANSURANUS code to deal with such innovative fuels and T91 steel cladding. Agreement among codes predictions was satisfactory for fuel and cladding temperatures, pellet-cladding gap and mechanical stresses. [Copyright &y& Elsevier]

Published
2010
Full Text
View/download PDF

19. Power transient analysis of fuel-loaded reflector experimental devices in Jules Horowitz Material Testing Reactor

Author

P. Console Camprini, C. Artioli, C. Gonnier, Marco Sumini, S. Bourdon, B. Pouchin, P. Sireta, Artioli, C., Console Camprini, P., Console Camprini, P, Sumini, Marco, Gonnier, C., Pouchin, B., Sireta, P., and Bourdon, S.

Subjects
Materials science, 020209 energy, Nuclear engineering, Control rod, Monte Carlo method, MTR, Reflector (antenna), Power transient, 02 engineering and technology, 01 natural sciences, JHR, Nuclear physics, Core-reflector coupling, Neutron flux, 0103 physical sciences, Fuel sample, 0202 electrical engineering, electronic engineering, information engineering, Deposition (phase transition), Research reactor, Point kinetics, Jules Horowitz Reactor, Point kinetic, Fissile material, 010308 nuclear & particles physics, Nuclear Energy and Engineering, Neutron source
Abstract

The Jules Horowitz Reactor (JHR) is designed to be the 100 MW Material Testing Reactor (MTR) which achieves the most important experimental capacity in Europe. It has been conceived to perform several irradiation tests at a time - taking advantage of many positions both in the core and in the reflector. The locations inside the reflector zone may utilize an intense thermal neutron flux to test the properties of fuel materials and to produce radioisotopes for medical purposes. High sample irradiation rates are achieved in the reflector area and a relevant power can be generated here, due to fissile materials inside these fuel test samples: about 60 kW for ADELINE test devices, some 120 kW for MADISON and up to about 650 kW for MOLFI. Then, power transient analyses are requested for these devices, mainly in connection with the reactor shutdowns. Energy deposition in the fuel samples - which are placed in the reflector - has been evaluated considering both normal operation and different reactor shutdown procedures. The analysis has been carried out by dividing the reactor system into two portions: the core as a neutron source and the reflector as a subcritical system. First, core power transients have been simulated by means of DULCINEE point kinetics code. Then, the neutron flux inside the reflector has been evaluated through the Monte Carlo transport code TRIPOLI 4.8, starting from the previously computed source. Both nominal operation and different configurations of control rod insertions have been taken into account. This evaluation provided a description of core-device coupling in terms of flux shape in the reflector. Main focus is on power deposition in samples which is of course affected by flux shape. Thus, point kinetics approach has been applied to the core as a source irradiating the samples that are considered coupled through the parameters evaluated by Monte Carlo. Power transients have been calculated both for energy deposition due to neutron-induced fission reactions and for gamma radiation as well. Results matched technical needs for the cooling loops optimization and the safety scenarios. © 2016 Elsevier Ltd. All rights reserved.

Published
2016

20. The core design of ALFRED, a demonstrator for the European lead-cooled reactors

Author

D. Gugiu, C. Petrovich, Giacomino Bandini, Konstantin Mikityuk, Evaldas Bubelis, P. Sciora, C. Artioli, Giacomo Grasso, Davide Mattioli, Artioli, C., Petrovich, C., Grasso, G., and Mattioli, D.

Subjects
Nuclear and High Energy Physics, Engineering, business.industry, Mechanical Engineering, Nuclear engineering, Power deposition, Frame (networking), Computational fluid dynamics, Core (optical fiber), Nuclear Energy and Engineering, Lead-cooled fast reactor, media_common.cataloged_instance, General Materials Science, Transient (oscillation), European union, Safety, Risk, Reliability and Quality, business, Waste Management and Disposal, Simulation, media_common, Eranos
Abstract

The European Union has recently co-funded the LEADER (Lead-cooled European Advanced DEmonstration Reactor) project, in the frame of which the preliminary designs of an industrial size lead-cooled reactor (1500 MW th ) and of its demonstrator reactor (300 MW th ) were developed. The latter is called ALFRED (Advanced Lead-cooled Fast Reactor European Demonstrator) and its core, as designed and characterized in the project, is presented here. The core parameters have been fixed in a comprehensive approach taking into account the main technological constraints and goals of the system from the very beginning: the limiting temperature of the clad and of the fuel, the Pu enrichment, the achievement of a burn-up of 100 GWd/t, the respect of the integrity of the system even in design extension conditions (DEC). After the general core design has been fixed, it has been characterized from the neutronic point of view by two independent codes (MCNPX and ERANOS), whose results are compared. The power deposition and the reactivity coefficient calculations have been used respectively as input for the thermal-hydraulic analysis (TRACE, CFD and ANTEO codes) and for some preliminary transient calculations (RELAP, CATHARE and SIM-LFR codes). The results of the lead activation analysis are also presented (FISPACT code). Some issues of the core design are to be reviewed and improved, uncertainties are still to be evaluated, but the verifications performed so far confirm the promising safety features of the lead-cooled fast reactors.

Published
2014

21. Alpha-adrenoreceptor blockade with thymoxamine reduces basal thyrotrophin levels but does not influence circadian thyrotrophin changes in man.

Author

Valcavi R, Dieguez C, Azzarito C, Artioli C, Portioli I, and Scanlon MF

Subjects
Adult, Female, Humans, Hypothyroidism blood, Middle Aged, Prolactin blood, Circadian Rhythm, Moxisylyte pharmacology, Thyrotropin blood
Abstract

We have tested the hypothesis that alpha-adrenergic drive is involved in the nocturnal increase in TSH in man. Seven mildly hypothyroid women (basal TSH levels 5.0-11.0 mU/l), aged 38-60 years, and nine euthyroid women, aged 27-60 years, were studied. Subjects underwent alpha-adrenergic blockade by infusion of thymoxamine (210 micrograms/min from 19.00 to 24.00 h); the same women were used as controls, with saline infused on different nights. Subjects were not allowed to sleep during the study period. A clear evening rise in basal TSH levels was apparent in both normal subjects and patients. Although overall secretion of TSH was slightly decreased in normal subjects (mean +/- S.E.M. area under the curve, 29.93 +/- 0.96 vs 30.71 +/- 0.80 mU/l per h; P less than 0.05), thymoxamine infusion did not produce any major alteration in the gradual rise in TSH levels during the evening (incremental change above baseline +0.96 +/- 0.21 during control infusion and +0.97 +/- 0.27 mU/l during thymoxamine infusion). In mildly hypothyroid patients the TSH changes were exaggerated and alpha-adrenergic blockade caused a reduction in basal TSH levels and a delayed rise in TSH (incremental change above baseline +2.93 +/- 1.42 during control infusion and +2.26 +/- 0.73 mU/l during thymoxamine infusion; P less than 0.02). Overall TSH secretion was significantly decreased by thymoxamine (mean +/- S.E.M. area 106 +/- 2.45 mU/l per h vs 123.32 +/- 3.68 in the control study; P less than 0.0001).(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1987
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results