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7 results on '"Alais, Jean-Christophe"'

1. Controlling Microgrids Without External Data: A Benchmark of Stochastic Programming Methods

Author

Puech, Alban, Rigaut, Tristan, Franc, Adrien Le, Templier, William, Alais, Jean-Christophe, Tournoud, Maud, Bossard, Victor, Yousef, Alejandro, and Stolyarova, Elena

Subjects
Mathematics - Optimization and Control
Abstract

Microgrids are local energy systems that integrate energy production, demand, and storage units. They are generally connected to the regional grid to import electricity when local production and storage do not meet the demand. In this context, Energy Management Systems (EMS) are used to ensure the balance between supply and demand, while minimizing the electricity bill, or an environmental criterion. The main implementation challenges for an EMS come from the uncertainties in the consumption, the local renewable energy production, and in the price and the carbon intensity of electricity. Model Predictive Control (MPC) is widely used to implement EMS but is particularly sensitive to the forecast quality, and often requires a subscription to expensive third-party forecast services. We introduce four Multistage Stochastic Control Algorithms relying only on historical data obtained from on-site measurements. We formulate them under the shared framework of Multistage Stochastic Programming and benchmark them against two baselines in 61 different microgrid setups using the EMSx dataset. Our most effective algorithm produces notable cost reductions compared to an MPC that utilizes the same uncertainty model to generate predictions, and it demonstrates similar performance levels to an ideal MPC that relies on perfect forecasts.

Published
2023

5. Un mix électrique 100% renouvelable? Analyses et optimisations. Un travail d'exploration des limites du développement des énergies renouvelables dans le mix électrique métropolitain a un horizon 2050

Author

Dubilly, Anne-Laure, Fournier, Laurent, Chiche, Alice, Faure, Nathalie, Bardet, Regis, Alais, Jean-Christophe, Girard, Robin, Bossavy, Arthur, Le Gars, Loïc, Biau, Jean-Baptiste, Piqueras, Ugo, Peyrusse, Colombe, Agence de l'Environnement et de la Maîtrise de l'Energie (ADEME), Artelys (Artelys), Artelys, Centre Procédés, Énergies Renouvelables, Systèmes Énergétiques (PERSEE), MINES ParisTech - École nationale supérieure des mines de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), Energies Demain, Ademe, and The International Nuclear Information System (INIS)

Subjects
Supply And Demand, Energy Source Development, Photovoltaic Power Plants, Socio-Economic Factors, Wind Turbine Arrays, Energy Demand, Availability, Power Generation, Renewable Energy Sources, Energy Storage, Projection Series, Meteorology, Sensitivity Analysis, Cost Estimation, [SPI.ENERG]Engineering Sciences [physics]/domain_spi.energ, Land Use, Cost Benefit Analysis, National Energy Plans, Feasibility Studies, Spot Market
Abstract

In 2013, ADEME published its energy and climate scenarios for the period 2030 to 2050, suggesting possible avenues to achieve a four-fold reduction in greenhouse-gas emissions by 2050 by cutting energy consumption by half and deploying renewable energy sources for electricity generation on a substantial scale. Both of these objectives were the basis for targets set by the President of France and subsequently adopted by Parliament in the Energy Transition Law to promote green growth. With this new study, ADEME submits an exploratory scientific prospective study. Questions of balance between production and demand and cost efficiency of renewable-based electricity mixes are investigated through an advanced optimisation. The electricity mixes are theoretical: they are created from scratch and do not take into account the current situation or the path needed to achieve a 100% renewable-based electricity system. It aims at highlighting the technical measures to be implemented (strengthening grids, load shedding and storage) to support a policy of growth in renewable electricity technologies. It is also be used to identify the key factors for developing renewable technologies at lower cost such as lower costs of technologies, demand-side management, development of flexibility, support of R and D of least-mature technologies and the social acceptance of renewable electricity installations.

Published
2016

6. Risque et optimisation pour le management d'énergies : application à l'hydraulique

Author

Alais, Jean-Christophe, Centre d'Enseignement et de Recherche en Mathématiques et Calcul Scientifique (CERMICS), École des Ponts ParisTech (ENPC), Université Paris-Est, Michel De Lara, and STAR, ABES

Subjects
Risk, Contraintes en probabilité, Gestion de la production hydroélectrique, Stochastic optimization, [MATH.MATH-GM] Mathematics [math]/General Mathematics [math.GM], Dynamic programming, Risque, Chance constraints, Decomposition-Coordination methods, Méthodes de décomposition-Coordination, [MATH.MATH-GM]Mathematics [math]/General Mathematics [math.GM], Optimisation stochastique, Hydropower planning, Programmation dynamique
Abstract

Hydropower is the main renewable energy produced in France. It brings both an energy reserve and a flexibility, of great interest in a contextof penetration of intermittent sources in the production of electricity. Its management raises difficulties stemming from the number of dams, from uncertainties in water inflows and prices and from multiple uses of water. This Phd thesis has been realized in partnership with Electricité de France and addresses two hydropower management issues, modeled as stochastic dynamic optimization problems. The manuscript is divided in two parts. In the first part, we consider the management of a hydroelectric dam subject to a so-called tourist constraint. This constraint assures the respect of a given minimum dam stock level in Summer months with a prescribed probability level. We propose different original modelings and we provide corresponding numerical algorithms. We present numerical results that highlight the problem under various angles useful for dam managers. In the second part, we focus on the management of a cascade of dams. We present the approximate decomposition-coordination algorithm called Dual Approximate Dynamic Programming (DADP). We show how to decompose an original (large scale) problem into smaller subproblems by dualizing the spatial coupling constraints. On a three dams instance, we are able to compare the results of DADP with the exact solution (obtained by dynamic programming); we obtain approximate gains that are only at a few percents of the optimum, with interesting running times. The conclusions we arrived at offer encouraging perspectives for the stochastic optimization of large scale problems, L'hydraulique est la principale énergie renouvelable produite en France. Elle apporte une réserve d'énergie et une flexibilité intéressantes dans un contexte d'augmentation de la part des énergies intermittentes dans la production. Sa gestion soulève des problèmes difficiles dus au nombre des barrages, aux incertitudes sur les apports d'eau et sur les prix, ainsi qu'aux usages multiples de l'eau. Cette thèse CIFRE, effectuée en partenariat avec Electricité de France, aborde deux questions de gestion hydraulique formulées comme des problèmes d'optimisation dynamique stochastique. Elles sont traitées dans deux grandes parties.Dans la première partie, nous considérons la gestion de la production hydroélectrique d'un barrage soumise à une contrainte dite de cote touristique. Cette contrainte vise à assurer une hauteur de remplissage du réservoir suffisamment élevée durant l'été avec un niveau de probabilité donné. Nous proposons différentes modélisations originales de ce problème et nous développons les algorithmes de résolution correspondants. Nous présentons des résultats numériques qui éclairent différentes facettes du problème utiles pour les gestionnaires du barrage.Dans la seconde partie, nous nous penchons sur la gestion d'une cascade de barrages. Nous présentons une méthode de résolution approchée par décomposition-coordination, l'algorithme Dual Approximate Dynamic Programming (DADP). Nousmontrons comment décomposer, barrage par barrage, le problème de la cascade en sous-problèmes obtenus en dualisant la contrainte de couplage spatial ``déversé supérieur = apport inférieur''. Sur un cas à trois barrages, nous sommes en mesure de comparer les résultats de DADP à la solution exacte (obtenue par programmation dynamique), obtenant desgains à quelques pourcents de l'optimum avec des temps de calcul intéressants. Les conclusions auxquelles nous sommes parvenu offrent des perspectives encourageantes pour l'optimisation stochastique de systèmes de grande taille

Published
2013

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