Your search keyword '"Vasset, Nicolas"' showing total 5 results

1. Excision scheme for black holes in constrained evolution formulations: Spherically symmetric case.

Author

Cordero-Carrión, Isabel, Vasset, Nicolas, Novak, Jérôme, and Jaramillo, José Luis

Subjects

*BLACK holes, *COMPUTER simulation, *EINSTEIN field equations, *BOUNDARY value problems, *SPACETIME, *NEUTRON stars

Abstract

Excision techniques are used in order to deal with black holes in numerical simulations of Einstein's equations and consist in removing a topological sphere containing the physical singularity from the numerical domain, applying instead appropriate boundary conditions at the excised surface. In this work we present recent developments of this technique in the case of constrained formulations of Einstein's equations and for spherically symmetric spacetimes. We present a new set of boundary conditions to apply to the elliptic system in the fully constrained formalism of Bonazzola et al. [Phys. Rev. D 70, 104007 (2004)], at an arbitrary coordinate sphere inside the apparent horizon. Analytical properties of this system of boundary conditions are studied and, under some assumptions, an exponential convergence toward the stationary solution is exhibited for the vacuum spacetime. This is verified in numerical examples, together with the applicability in the case of the accretion of a scalar field onto a Schwarzschild black hole. We also present the successful use of the excision technique in the collapse of a neutron star to a black hole, when excision is switched on during the simulation, after the formation of the apparent horizon. This allows the accretion of matter remaining outside the excision surface and for the stable long-term evolution of the newly formed black hole. [ABSTRACT FROM AUTHOR]

Published

2014

2. ISOLATED HORIZONS IN NUMERICAL RELATIVITY: CONSTRUCTING THE EXCISED KERR SPACETIME IN DIRAC GAUGE.

Author

VASSET, NICOLAS, NOVAK, JÉRÔME, and LUIS JARAMILLO, JOSÉ

Subjects

*GENERAL relativity (Physics), *BOUNDARY value problems, *GAUGE field theory, *QUANTUM gravity, *PARTICLE physics, *NUMERICAL analysis, *ASTROPHYSICS

Published

2012

3. Optimal retrofit of district heating network to lower temperature levels.

Author

Merlet, Yannis, Baviere, Roland, and Vasset, Nicolas

Subjects

*HEATING from central stations, *LOW temperatures, *RETROFITTING, *SATISFACTION, *DYNAMIC simulation

Abstract

The transition of existing second-generation district heating networks (DHN) towards lower temperature levels for operation can lead to energy savings and to fewer constraints for the pipes and substations. However, retrofitting measures on the distribution network are often inevitable in order to still guarantee heat demand satisfaction. This paper presents a methodology to efficiently identify and alleviate existing limitations for temperature lowering in the design of a DHN distribution network. After having identified the most restrictive assets through existing methods, we apply a multi-objective optimization on a dynamical thermal hydraulic simulator for selecting the most efficient modifications on the DHN to attain our target. We apply the developed methodology on a test case representing real DHN operation, and featuring 60 consumers and 260 pipes. The maximum operating temperature is decreased significantly and various modifications for retrofitting are proposed as a set of optimal solutions, forming a Pareto front approximation. This work, through the combined use of a non-linear, dynamic simulator, and a multi-objective optimization framework, allows also to consider a variety of assets (exchangers, pumps, pipes ...) as retrofitting targets and, thus, potentially identifies interesting solutions beyond common practices. • Lowering the supply temperature in district heating network can require the modification of the network. • The modifications of pipes, substations or pumps can be optimum using multi-objective optimization. • A dynamic thermohydraulic simulation is needed to ensure the optimality of a solution. [ABSTRACT FROM AUTHOR]

Published

2023

4. Application of initial data sequences to the study of Black Hole dynamical trapping horizons.

Author

Jaramillo, José Luis, Ansorg, Marcus, and Vasset, Nicolas

Subjects

*SUPERMASSIVE black holes, *COMPACT objects (Astronomy), *GRAVITATIONAL collapse, *KERR black holes, *HYPERSURFACES

Abstract

Non-continuous “jumps” of Apparent Horizons occur generically in 3+1 (binary) black hole evolutions. The dynamical trapping horizon framework suggests a spacetime picture in which these “Apparent Horizon jumps” are understood as spatial cuts of a single spacetime hypersurface foliated by (compact) marginally outer trapped surfaces. We present here some work in progress which makes use of uni-parametric sequences of (axisymmetric) binary black hole initial data for exploring the plausibility of this spacetime picture. The modelling of Einstein evolutions by sequences of initial data has proved to be a successful methodological tool in other settings for the understanding of certain qualitative features of evolutions in restricted physical regimes. [ABSTRACT FROM AUTHOR]

Published

2009

5. Formulation and assessment of multi-objective optimal sizing of district heating network.

Author

Merlet, Yannis, Baviere, Roland, and Vasset, Nicolas

Subjects

*HEATING from central stations, *GENETIC algorithms, *HEAT pipes, *SCALABILITY, *RADIAL distribution function

Abstract

The efficiency of a District Heating (DH) network depends among other things on the quality of its design and more precisely on the sizing of the distribution network pipes. Providing DH designers with relevant methodology to select appropriate pipes is crucial to maximize the utility of those systems. This paper presents a methodology focusing on the optimal sizing of pipe diameters in DH networks: the methodology uses a genetic algorithm to generate a set of Pareto-optimal sizing choices. An implementation of the methodology is presented, and is validated on three test cases, each of them corresponding to an elementary configuration, which can be encountered in real-world DH network. As a result, the performance of the results provided by the optimization for each test case are as good or better than the best reference solutions we could provide. The last part of this paper addresses the scalability of the proposed sizing methodology. The interest of the presented methodology is lies in the typology of optimal solutions provided for the test cases that could not be devised with traditional sizing methods and by the scalability of the method that makes it suitable for optimal sizing at city scale. • An optimal sizing methodology for the pipes of district heating networks is presented. • The methodology is based on multi-objective optimization and simulation. • A validation and verification workflow for optimal design of the distribution of district heating network is presented. • The methodology can tackle district heating networks up to 200 consumers. [ABSTRACT FROM AUTHOR]

Published

2022