Membre

@article{abouibrahim:hal-05043848,

title = {Application of Ventilated Solar Façades to enhance the energy efficiency of buildings: A comprehensive review},

author = {Rima Abou Ibrahim and Oumaima Imghoure and Pierre Tittelein and Naoual Belouaggadia and Fadi Hage Chehade and Nassim Sebaibi and Stéphane Lassue and Laurent Zalewski},

url = {https://hal.science/hal-05043848},

doi = {10.1016/j.egyr.2024.12.051},

year  = {2025},

date = {2025-06-01},

urldate = {2025-06-01},

journal = {Energy Reports},

volume = {13},

pages = {1266-1292},

publisher = {Elsevier},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{ibrahim:hal-05014541,

title = {Corrigendum to ‘Application of Ventilated Solar Façades to enhance the energy efficiency of buildings: A comprehensive review' Energy Rep. 13 (June) (2025) 1266–1292/2352–4847},

author = {Rima Abou Ibrahim and Oumaima Imghoure and Pierre Tittelein and Naoual Belouaggadia and Fadi Hage Chehade and Nassim Sebaibi and Stéphane Lassue and Laurent Zalewski},

url = {https://hal.science/hal-05014541},

doi = {10.1016/j.egyr.2025.01.054},

year  = {2025},

date = {2025-06-01},

urldate = {2025-06-01},

journal = {Energy Reports},

volume = {13},

pages = {2365},

publisher = {Elsevier},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@inproceedings{omemeada:hal-04528952,

title = {Sorption and moisture buffering capacities of hemp lime concrete embedded with phase change materials (PCM) for buildings},

author = {A. M. Omeme Ada and Anh Dung Tran Le and Pierre Tittelein and Laurent Zalewski and Dang Mao Nguyen and Emmanuel Antczak and Thierry Langlet},

url = {https://hal.science/hal-04528952},

year  = {2024},

date = {2024-04-01},

urldate = {2024-04-01},

booktitle = {The International Conference series on Geotechnics, Civil Engineering and Structures (CIGOS) 2024},

address = {Ho Chi Minh City, Vietnam, Vietnam},

organization = {the Association of Vietnamese Scientists and Experts (AVSE Global) and the University of Architecture Ho Chi Minh City (UAH) under the auspices of RILEM and TC-309 of ISSMGE},

note = {COM},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@article{toifane:hal-03654178,

title = {Thermophysical Characterization of a Thermoregulating Interior Coating Containing a Bio-Sourced Phase Change Material},

author = {Hachmi Toifane and Pierre Tittelein and Yassine Cherif and Laurent Zalewski and Hervé Leuck},

url = {https://hal.archives-ouvertes.fr/hal-03654178},

doi = {10.3390/app12083827},

year  = {2022},

date = {2022-04-01},

urldate = {2022-04-01},

journal = {Applied Sciences},

volume = {12},

number = {8},

pages = {3827},

publisher = {MDPI},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{abouibrahim:hal-03714492,

title = {New Supply-Air Solar Wall with Thermal Storage Designed to Preheat Fresh Air: Development of a Numerical Model Adapted to Building Energy Simulation},

author = {Rima Abou Ibrahim and Pierre Tittelein and Stéphane Lassue and Fadi Hage Chehade and Laurent Zalewski},

url = {https://hal.archives-ouvertes.fr/hal-03714492},

doi = {10.3390/app12083986},

year  = {2022},

date = {2022-04-01},

urldate = {2022-04-01},

journal = {Applied Sciences},

volume = {12},

number = {8},

pages = {3986},

publisher = {MDPI},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{GLORIANT2021119154,

title = {Using heat flux sensors for a contribution to experimental analysis of heat transfers on a triple-glazed supply-air window},

author = {François Gloriant and Annabelle Joulin and Pierre Tittelein and Stéphane Lassue},

url = {https://www.sciencedirect.com/science/article/pii/S0360544220322611},

doi = {https://doi.org/10.1016/j.energy.2020.119154},

issn = {0360-5442},

year  = {2021},

date = {2021-01-01},

urldate = {2021-01-01},

journal = {Energy},

volume = {215},

pages = {119154},

abstract = {An experimental set-up of triple-glazed supply-air window is developed in this research in order to characterize the window’s thermal performance without solar radiation. By simultaneously measuring the local temperatures and heat fluxes with thermocouples and heat fluxmeters, the heat fluxes determination requires no longer using the correlations of heat transfer coefficients around the window, which are often the source of high uncertainties. Results show that the use of fluxmeters brought a more accurate measure of heat transfers around and in the window. Thereafter, the heat transfer coefficients can be correctly estimated by empirical evidence. Uncertainty analysis is then presented to highlight the reliability of the experimental method. Afterwards, the obtained experimental data are compared with those of numerical model developed by using Fluent® software. A thorough comparison analysis is provided to explain which parameters play a role in deviating the results between the two methods, leading to conclude the validity of numerical model assumptions with respect to the real conditions of experimental set-up.},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{omemeada:hal-03637241,

title = {Hygrothermal performance of hemp lime concrete embedded with phase change materials for buildings},

author = {A. M. Omeme Ada and A. Tran Le and Hachmi Toifane and Pierre Tittelein and Laurent Zalewski and Emmanuel Antczak and Omar Douzane and T. Langlet},

url = {https://hal-univ-artois.archives-ouvertes.fr/hal-03637241},

doi = {10.1088/1742-6596/2069/1/012005},

year  = {2021},

date = {2021-11-01},

urldate = {2021-11-01},

journal = {Journal of Physics: Conference Series},

volume = {2069},

number = {1},

pages = {012005},

publisher = {IOP Publishing},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{leang_numerical_2020,

title = {Numerical and Experimental Investigations of Composite Solar Walls Integrating Sensible or Latent Heat Thermal Storage},

author = {Enghok Leang and Pierre Tittelein and Laurent Zalewski and Stéphane Lassue},

url = {https://www.mdpi.com/2076-3417/10/5/1854},

doi = {10.3390/app10051854},

year  = {2020},

date = {2020-01-01},

urldate = {2020-03-17},

journal = {Applied Sciences},

volume = {10},

number = {5},

pages = {1854},

abstract = {This article studies a composite solar wall with latent storage (TES) designed to heat rooms inside buildings during the cold season. No numerical model of the composite solar wall is currently available in the Dymola/Modelica software library. The first objective of this work is to develop one such model. The article describes the elementary components, along with the equations that allow modeling the heat transfers and storage phenomena governing both the thermal behavior and performance of the solar wall. This model was built by assembling various existing basic elements from the software’s “Building” library (e.g., models of heat transfer by convection, radiation and conduction) and then creating new elements, such as the storage element incorporating the phase change material (PCM). To validate this solar wall model, numerical results are compared to experimental data stemming from a small-scale composite solar wall manufactured in our laboratory, and the experimental set-up could be tested under real weather conditions. After verifying the level of confidence in the model, the energy performance of two solar walls, one with a conventional storage wall (sensible heat storage) the other containing a PCM (the same as in the experiment), are compared. The result indicates that the solar wall incorporating a PCM does not in this case release any more energy in the room to be heated.},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{en13184872,

title = {Impact of a Composite Trombe Wall Incorporating Phase Change Materials on the Thermal Behavior of an Individual House with Low Energy Consumption},

author = {Enghok Leang and Pierre Tittelein and Laurent Zalewski and Stéphane Lassue},

url = {https://www.mdpi.com/1996-1073/13/18/4872},

doi = {10.3390/en13184872},

issn = {1996-1073},

year  = {2020},

date = {2020-01-01},

journal = {Energies},

volume = {13},

number = {18},

abstract = {As the heating demands of buildings drop considerably, the use of solar walls makes increasing sense. One of the obstacles to the development of such walls is their need for on-site implementation by specialized companies. On the other hand, a storage wall is generally composed of heavy materials with high inertia, which prevents prefabrication of the solar component. To avoid this problem and allow for solar walls to be prefabricated in the factory, a novel approach to replacing this heavy wall with a lighter storage wall incorporating phase change materials (PCM) has been proposed. This paper aims to demonstrate the impact of PCM on the thermal energy performance once they have been integrated into the storage wall of the composite Trombe wall. Addressed herein will be the heat transfer exchange inside a house located in the northern part of France, where a composite Trombe wall has been fitted without PCM. Three configurations will be investigated—(1) the model house without the solar Trombe wall, defined as the reference configuration; (2) the model house integrating the concrete solar Trombe wall; and (3) the model house integrating the PCM solar Trombe wall. Two setpoint temperatures will be introduced—(a) a constant setpoint of 20 °C, and (b) a variable setpoint of 19 °C (14 h from 7:00 a.m. to 9:00 p.m.) and 16 °C (10 h from 9:00 p.m. to 7:00 a.m.). Furthermore, three different climate conditions will be adopted to run simulations—Paris-Orly, Lyon, and Nice. Dymola/Modelica, a dynamic thermal simulation tool, will be utilized to simulate the thermal performance of these defined configurations. The results obtained, regarding a solar Trombe wall installation that applies two distinct storage walls exposed to the weather of Paris, showed similar minimizations of the one-year energy heating demand inside the bedroom, equal to roughly 20% (i.e., 20.45% of concrete storage wall and 19.90% of PCM storage wall) compared to the reference configuration (i.e., the house with no solar Trombe wall). Based on the imposed setpoint temperature by means of night and day reductions, the resulting heating energy demand in the bedroom, through application of the two storage walls (concrete and PCM) and three different climatic regions could be minimized by 20.34% in Paris, 20.20% in Lyon, and 68.10% in Nice (for the concrete storage wall) vs. the reference configuration; and by 18.79% in Paris, 19.56% in Lyon, and 55.15% in Nice (for the PCM storage wall) vs. the reference configuration.},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{en13215640,

title = {Design Optimization of a Composite Solar Wall Integrating a PCM in a Individual House: Heating Demand and Thermal Comfort Considerations},

author = {Enghok Leang and Pierre Tittelein and Laurent Zalewski and Stéphane Lassue},

url = {https://www.mdpi.com/1996-1073/13/21/5640},

doi = {10.3390/en13215640},

issn = {1996-1073},

year  = {2020},

date = {2020-01-01},

journal = {Energies},

volume = {13},

number = {21},

abstract = {Thermal energy storage (TES), which features an innovative technology, can enhance energy efficiency in the building sector and reduce CO2 emissions. Due to their high heat storage capacity, phase change materials (PCMs) have impressed many researchers. This paper investigates the energy performance of an individual house integrating a solar Trombe wall containing PCM with respect to heating demand and thermal comfort applications. The thermal energy performance of the design house was simulated using Dymola/Modelica, the thermal building simulation tool, whereby the optimization of objective functions as regards heating demand and thermal comfort was executed using GenOpt, the generic optimization software. Optimization of the solar Trombe wall focuses on the feasibility to find the optimal PCM parameters when running GenOpt, which consist of latent heat, melting temperature, PCM thickness and thermal conductivity, in order to minimize both the annual energy consumption for heating and the number of hours of thermal discomfort. The parametric study was first conducted for each PCM parameter so as to not only observe its effect on the identified energy performance, but also ensure the absence of errors in simulation runs before performing the optimization. The ‘Coordinate Search’ Generalized Pattern Search (GPS) algorithm was applied to minimize the objective function, whereas the ‘Weighted Sum Approach’ was used to solve the multi-objective function problem. Results showed that the higher the latent heat, the lower the heating demand and the greater the thermal comfort. The results of these parametric studies show that for the effect of the parameter on heating, demand is quite limited (1-2 kWh·m−2·year−1) whereas the effect on thermal comfort is more significant. The optimal PCM melting temperature is higher for warmer climates; it is also higher for the studied case applying the optimization method to minimize the objective function by assigning the number of hours of thermal discomfort (from 32.8 ∘C to 35.9 ∘C, depending on weather) than it is when applying the optimization method to reduce the objective function by assigning heating demand (from 31.5 ∘C to 32.9 ∘C, again depending on weather).},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{zalewski_efficient_2019,

title = {Efficient Characterization of Macroscopic Composite Cement Mortars with Various Contents of Phase Change Material},

author = {Laurent Zalewski and Erwin Franquet and Stéphane Gibout and Pierre Tittelein and Didier Defer},

url = {https://www.mdpi.com/2076-3417/9/6/1104},

doi = {10.3390/app9061104},

year  = {2019},

date = {2019-01-01},

urldate = {2019-03-19},

journal = {Applied Sciences},

volume = {9},

number = {6},

pages = {1104},

abstract = {The determination of both the thermal and thermodynamical properties of a composite material containing phase change material is done thanks to an inverse method, which combines experimental measurements and numerical computations. Given first an in-house experiment, which allows us to test samples at a macroscopic scale (i.e., close to the real conditions) and to set various types of thermal stresses, and secondly the simulation of the corresponding thermal behavior, relying on an accurate thermodynamical modeling and taking into account the real operating parameters (e.g., thermal contact resistances and non-symmetric heat fluxes on each side), it is possible to characterize the solid and liquid thermal conductivities and heat capacities, as well as the temperature range associated with a non-isothermal phase transition and the associated latent heat. The specificity of the present approach is to allow, in a single step, a characterization of all the involved thermo-physical parameters that are usually required in simulation tools (e.g., EnergyPlus…). Moreover, the hitherto studies dealing with repeatability and uncertainties of the enthalpy characterization are generally very scant and not encountered very often or only with qualitative assessments. This is a clear caveat, especially when considering any system design. Therefore, for the first time ever, the present paper pays a special attention to the repeatability of the identification method and studies the scedasticity of the results, that is to say the deviations of the determined enthalpy curves, not only from a qualitative point of view but also by proposing quantitative arguments. Finally, the results are very promising since the agreement between all trials is excellent, the maximum error for all parameters being lower than 4%. This is far below the current quality thresholds admitted when characterizing the enthalpy of a phase change material.},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{akil_statistical_2019,

title = {Statistical indicator for the detection of anomalies in gas, electricity and water consumption: Application of smart monitoring for educational buildings},

author = {Mostafa Akil and Pierre Tittelein and Didier Defer and Frédéric Suard},

url = {http://www.sciencedirect.com/science/article/pii/S0378778818332511},

doi = {10.1016/j.enbuild.2019.07.025},

issn = {0378-7788},

year  = {2019},

date = {2019-01-01},

urldate = {2019-09-02},

journal = {Energy and Buildings},

volume = {199},

pages = {512--522},

abstract = {Building facility managers are increasingly equipping their buildings with extensive sets of sensors. This article aims to develop an analysis decision-making methodology based on the production of statistical indicators. The tracking of such indicators allows detecting any systems performance problems. The automatic pinpointing of malfunctions can serve to activate alerts. Our approach focuses on the processing of data stemming from secondary schools managed by departmental services in the Pas-de-Calais, where 117 secondary school buildings have been instrumented with various sensors and supplying data since 2015. This article starts with a close-up on data mining for water, gas and electricity consumption. Data mining and machine learning methods, including the Clustering approach (K-Means), have been used to extract information from the measurements conducted in 2015 and 2016. This information is used to classify the 2017 measurements according to supervised approaches (SVM). The specificity of this work is to delve deeper into the analysis by combining into the same algorithm a set of various sensors related to both energy use and building occupancy. The data classification results have allowed highlighting "atypical" operations during the daytime, through interpreting data classification results in an effort to define the status of every day in year 2017.},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@conference{cherif2019a,

title = {Etude numérique des échanges convectifs au sein d’une fenêtre pariétodynamique de type Paziaud® contenant un film chauffant},

author = {Yassine Cherif and Pierre Tittelein and Stéphane Lassue},

year  = {2019},

date = {2019-06-16},

urldate = {2019-06-16},

booktitle = {XIVème Colloque International Franco-Québécois en énergie},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@inproceedings{leang_etude_2018,

title = {Étude expérimentale et numérique d'un mur solaire composite intégrant une paroi stockeuse en mortier ciment et MCP micro-encapsulé},

author = {Enghok Leang and Pierre Tittelein and Laurent Zalewski and Stéphane Lassue},

year  = {2018},

date = {2018-01-01},

booktitle = {actes du Congrès Français de Thermique 2018},

address = {Pau},

abstract = {Cet article présente l'étude d'un mur solaire de type Trombe composite intégrant une paroi stockeuse constituée d'un mortier ciment contenant un matériau à changement de phase micro-encapsulé. Un modèle numérique de ce mur solaire a été développé en utilisant le logiciel Dymola/Modelica. Les résultats issus de simulations sont comparés à des mesures expérimentales réalisées sur une maquette à échelle réduite en vue d'une validation du modèle. Les résultats numériques et mesurées obtenus montrent une bonne similitude pour les grandeurs caractéristiques du composant solaire essentiels à l'évaluation de ses performances énergétiques},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@inproceedings{mostafa_akil_methode_2018,

title = {Méthode statistique de classification automatique des mesures de consommations de bâtiments d’enseignement en eau, gaz et électricité pour la mise en évidence d’anomalies de fonctionnement},

author = {Mostafa Akil and Didier Defer and Pierre Tittelein and Frédéric Suard},

url = {http://ibpsa.fr/index.php?option=com_jdownloads&Itemid=53&view=viewcategory&catid=81},

year  = {2018},

date = {2018-01-01},

booktitle = {Conférence IBPSA France},

address = {Bordeaux},

abstract = {Les gestionnaires de parc équipent de plus en plus leurs bâtiments avec de nombreux capteurs. 

L’analyse des données issues de ces mesures reste pourtant compliquée et se limite souvent à la définition de 

seuils d’alerte. Cet article vise à développer une méthodologie d’analyse basée sur l’élaboration d’indicateurs 

statistiques. Leur suivi pourra permettre de détecter des évolutions de comportement ou de performance des 

systèmes. La mise en évidence automatisée d’anomalies de fonctionnement pourra déclencher des alertes. Notre 

première approche se concentre sur le traitement de données issues de collèges gérés par le département de Pas 

de Calais. 117 bâtiments de collège sont instrumentés avec différents capteurs (eau, électricité, gaz, température 

intérieure et extérieure, …) et fournissent des données depuis 2015. Plusieurs cycles de saisons sont exploitables. 

Des méthodes de Data Mining, y compris l'approche de Clustering, ont été utilisées pour extraire des informations 

à partir des mesures en 2015 et 2016. Les résultats de la classification des données ont permis de mettre en 

évidence des jours de fonctionnement rares en exploitant les résultats de la classification des données.},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@inproceedings{asfour_dynamic_2018,

title = {Dynamic study efficiency of the use of phase change materials integrated on the ceiling of a community hall},

author = {Sarah Asfour and Pierre Tittelein and Laurent Zalewski},

year  = {2018},

date = {2018-05-01},

booktitle = {12th IIR Conference on Phase-Change Materials and Slurries for Refrigeration and Air Conditioning (PCM 2018)},

address = {Orford, Quebec, Canada},

abstract = {In this article, we study the influence of the insertion of a phase change materials (PCMs) in the ceiling of a community hall on its comfort during the summer period. This study was realized using a dynamic thermal simulation of the building using a modelica library (BuildSysPro). Initially, we have defined materials used for the building including the characteristics of the phase change material used (thermal conductivity, melting temperature, specific heat capacity, latent heat and density). We have tested two configurations: insertion of a layer of PCM mortar and incorporation of PCM in rock wool ceiling tiles. We study the influence of the over-ventilation during night on these two cases. By comparing the simulation results during summer, we have noticed that the over-ventilation during night has a significant influence in reducing the inner temperature of the building. The insertion of PCM in a layer of ceiling tiles didn’t have a significant efficiency contrary to the insertion of a layer of PCM mortar. Secondly, we have optimized the PCM characteristics in order to achieve more comfort during summer.},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@inproceedings{leang_impact_2018,

title = {Impact de l’utilisation d’un mur solaire composite intégrant des matériaux à changement de phase sur le comportement thermique d’une maison individuelle},

author = {Enghok Leang and Pierre Tittelein and Laurent Zalewski and Stéphane Lassue},

year  = {2018},

date = {2018-06-01},

booktitle = {Journée nationale sur l'énergie solaire},

address = {Villeurbanne, Rhône, France},

abstract = {Avec la forte réduction des besoins de chauffage des bâtiments, l’utilisation de murs solaires prend tout son sens. L’un des freins à leur développement réside dans le fait qu’ils doivent être réalisés sur chantier par des entreprises spécialisées à cause du mur stockeur qui est en maçonnerie. Pour éviter ce problème et permettre de construire des murs solaires préfabriqués en usine, on peut imaginer de remplacer le mur en maçonnerie par un mur plus léger intégrant des matériaux à changement de phase (MCP). 

On cherchera dans cette étude à montrer l’impact de l’utilisation d’un mur solaire intégrant des MCP sur le comportement thermique d’une maison individuelle et la réduction des consommations énergétiques. Le matériau utilisé pour le mur dans une première approche est un mortier intégrant des microbilles commerciales de MCP. On cherchera ensuite à optimiser les caractéristiques de ce MCP pour réduire au maximum les besoins de chauffage du logement.},

note = {COM},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@inproceedings{leang_performance_2017,

title = {Performance énergétique de parois solaires et stockage de l'énergie par chaleur latente},

author = {Enghok Leang and Pierre Tittelein and Laurent Zalewski and Stéphane Lassue},

year  = {2017},

date = {2017-01-01},

booktitle = {Actes du CIFQ 2017},

address = {Saint Lô},

abstract = {Cet article présente tout d’abord la comparaison entre les résultats de simulations numériques issues d’un modèle de mur Trombe composite intégrant une paroi stockeuse en béton et les résultats de mesures. Y sont confrontées les valeurs de flux de chaleur, de température de surface extérieure et intérieure de paroi, et les températures liées à la lame d’air ventilée. Ensuite, en utilisant pour base le modèle présenté en première partie, les performances d’un mur Trombe composite avec une paroi stockeuse en béton classique sont comparées à celles d’un mur intégrant un matériau à changement de phase (MCP), en utilisant le logiciel Dymola/Modelica. Les différences entre l’énergie stockée par le béton par chaleur sensible et celle du MCP par chaleur latente durant le changement d’état (solide-liquide, liquide-solide), les transferts thermiques par conduction, convection et rayonnement sont étudiés dans cet article.},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@article{leang_numerical_2017,

title = {Numerical study of a composite Trombe solar wall integrating microencapsulated PCM},

author = {Enghok Leang and Pierre Tittelein and Laurent Zalewski and Stéphane Lassue},

url = {http://www.sciencedirect.com/science/article/pii/S1876610217334276},

doi = {10.1016/j.egypro.2017.07.467},

issn = {1876-6102},

year  = {2017},

date = {2017-01-01},

urldate = {2017-11-13},

journal = {Energy Procedia},

volume = {122},

number = {Supplement C},

pages = {1009--1014},

series = {CISBAT 2017 International ConferenceFuture Buildings & Districts – Energy Efficiency from Nano to Urban Scale},

abstract = {First, this article introduces a comparison between experimental results and the results issued from a numerical model of a composite Trombe solar wall incorporating a concrete storage wall with the help of the Dymola/Modelica software. The validation of the model is realized from the comparison between simulated and measured heat flux, external and internal surface temperatures and fluid temperatures in a ventilated air layer. Then, the numerical model is used to simulate a composite solar wall where the concrete storage wall is replaced by a mortar mixed with microencapsulated phase change material (PCM). This allows to study and compare the thermal behavior and the energy performances of the two composite solar walls.},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@book{abadie_energetique_2016,

title = {Energétique des bâtiments & simulation thermique},

author = {Marc Abadie and Alain Bastide and Rachid Bennacer and Emmanuel Bozonnet and Boris Brangeon and Adrien Brun and Benjamin Cinquin-Lapierre and Baptiste Durand-Estèbe and Aurélie Foucquier and Gilles Fraisse and Jeanne Goffart and Alain Guiavarch and Frédéric Kuznik and Remon Lapisa and Jérome Lopez and Christophe Ménézo and Laurent Mora and Fabio Munaretto and Marjorie Musy and Hubert Pénicaud and Romain Périé and Bruno Peuportier and Christophe Plantier and Thomas Recht and Jean-Jacques Roux and Marie Ruellan and Patrick Salagnac and Patrick Schalbart and Eduardo Serodio and Clara Spitz and Yannick Sutter and Stéphane Thiers and Pierre Tittelein and Eric Vorger and Monika Woloszyn and Etienne Wurtz and Frédéric Wurtz},

url = {/BTP/Livre/energetique-des-batiments-et-simulation-thermique-9782212142754},

isbn = {978-2-212-14275-4},

year  = {2016},

date = {2016-01-01},

urldate = {2017-06-09},

publisher = {Eyrolle},

edition = {Eyrolle},

abstract = {Destiné aux professionnels du bâtiment, ce livre au sujet d'actualité est à la fois théorique et pratique. Il présente les travaux d'une trentaine de...},

note = {OS},

keywords = {ER5},

pubstate = {published},

tppubtype = {book}

}

@inproceedings{ajib_switching_2016,

title = {Switching models for the building’s thermal behavior},

author = {Balsam Ajib and Sanda Lefteriu and Antoine Caucheteux and Stéphane Lecoeuche and Pierre Tittelein},

year  = {2016},

date = {2016-01-01},

booktitle = {actes de la conférence IBPSA France 2016},

address = {Marne la Valée},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@inproceedings{khadra_modelisation_2016,

title = {Modélisation d’un canal rectangulaire ventilé ouvert soumis à des sollicitations thermiques asymétriques et Analyse des échanges thermiques},

author = {Mariam Khadra and Annabelle Joulin and Pierre Tittelein and Stéphane Lassue},

url = {http://www.sft.asso.fr/Local/sft/dir/user-3775/documents/actes/Congres_2016/resumes_toulouse/96.pdf},

year  = {2016},

date = {2016-01-01},

booktitle = {actes du Congrès Français de Thermique 2016},

address = {Toulouse},

abstract = {Cet article traite de l’étude d’un système pariéto-dynamique destinée à la rénovation par l’extérieur des bâtiments. Le dispositif étudié est composé d’éléments opaques et est associé à une arrivée d'air extérieur permettant ainsi au fluide, en circulant entre les parois, de récupérer une partie de l'énergie solaire stockée et des déperditions thermiques à travers cette paroi. Dans le cadre de notre étude, des modélisations ont été conduites à l’aide du logiciel Fluent® et permettent de discuter de l’importance des paramètres physiques et dynamiques sur les transferts thermiques s’opérant à l’intérieur de la cavité ventilée. Cette étape nous permet également d’étudier le comportement du fluide en mouvement et d’analyser l’incidence du flux solaire absorbé sur les profils de vitesses et de températures.},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@article{kuznik_impact_2016,

title = {Impact of the enthalpy function on the simulation of a building with phase change material wall},

author = {F Kuznik and K Johannes and E Franquet and Laurent Zalewski and S Gibout and Pierre Tittelein and J -P Dumas and D David and J -P Bédécarrats and Stéphane Lassue},

url = {http://www.sciencedirect.com/science/article/pii/S0378778816304157},

doi = {10.1016/j.enbuild.2016.05.046},

issn = {0378-7788},

year  = {2016},

date = {2016-01-01},

urldate = {2016-05-27},

journal = {Energy and Buildings},

volume = {126},

pages = {220--229},

abstract = {Recent studies concerning phase change material (PCM) characterization show that important errors occur if differential scanning calorimetry (DSC) experiments are misinterpreted. Therefore, it is important to know the influence of such misinterpretation on system modeling. The present work deals with phase change materials integrated in building structure to reduce overheating. The objective is to evaluate the discrepancies consequences (temperatures, heat fluxes), due to the use of the misinterpreted DSC experiments at different heating rates to determine the enthalpy, in comparison with those determined with the actual value of the enthalpy of the PCM determined by a proven inverse method. A numerical model of a single-family house with a phase change material mortar is developed to evaluate the thermal comfort in the building. The results show that for free-running temperature, none of the enthalpy curve deduced directly from DSC can predict correctly the thermal behavior of the house and the thermal comfort. Moreover, the more the DSC heating rate and the more the discrepancy with the results from the reference inverse method.},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@inproceedings{tittelein_comparaison_2016,

title = {Comparaison des bibliothèques libres de Modelica pour la simulation thermique dynamique du bâtiment.},

author = {Pierre Tittelein and Enghok Leang and Laurent Zalewski and Stéphane Lassue},

year  = {2016},

date = {2016-01-01},

booktitle = {actes de la conférence IBPSA France 2016},

address = {Marne la Valée},

abstract = {Le langage Modelica est de plus en plus utilisé dans toutes les branches de l'ingénierie pour la modélisation à l'échelle système. Il s'agit d'un langage orienté objet basé sur les équations et donc fait pour les physiciens au sens large). Dans le domaine du bâtiment, il commence également à se développer et plusieurs bibliothèques de modèles sont maintenant disponibles gratuitement. 

L'objectif de cet article est d'aider les personnes qui souhaitent réaliser des modèles de systèmes ou de composants de bâtiments dans le langage Modelica et qui ne savent pas dans quelle bibliothèque l'intégrer. Pour cela, l'idée est de comparer les bibliothèques libres de Modelica pouvant servir à la simulation thermique dynamique des bâtiments. La comparaison ne porte pas sur les performances des modèles mais plutôt sur leurs fonctionnalités et les grands choix de développement réalisés. Nous utilisons l'exemple de l'intégration d'un modèle de fenêtre pariétodynamique pour étayer nos propos.},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@inproceedings{zalewski_characterization_2016,

title = {Characterization of phase change material with fluxmetric experimental device},

author = {Laurent Zalewski and Pierre Tittelein and Didier Defer and Stéphane Lassue},

year  = {2016},

date = {2016-06-01},

booktitle = {Oral presentation},

address = {Krakow, Poland},

note = {COM},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@conference{bede2015a,

title = {Caractérisation des matériaux à changement de phase pour la simulation thermique des bâtiments},

author = {Jean-Pierre Bédécarrats and Damien David and Didier Defer and Jean-Pierre Dumas and Erwin Franquet and Stéphane Gibout and Didier Haillot and Kévyn Johannes and Annabelle Joulin and Frédéric Kuznik and Stéphane Lassue and William Maréchal and Hassane Naji and Pierre Tittelein and Laurent Zalewski},

year  = {2015},

date = {2015-05-01},

booktitle = {actes du Congrès Français de Thermique 2015},

address = {La Rochelle},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{bede2015b,

title = {Phase change materials characterisation and applications to the thermal simulation of buildings},

author = {Jean-Pierre Bédécarrats and Damien David and Didier Defer and Jean-Pierre Dumas and Erwin Franquet and Stéphane Gibout and Didier Haillot and Kevyn Johannes and Annabelle Joulin and Frédéric Kuznik and Stéphane Lassue and William Maréchal and Hassane Naji and Pierre Tittelein and Laurent Zalewski},

year  = {2015},

date = {2015-07-01},

booktitle = {Proceedings of ECOS 2015},

address = {Pau},

abstract = {We aim here at presenting the main results of the Stock-E MICMCP ANR 

	project whose principal goal is the correct thermophysical characterisation 

	of phase change materials in order to have reliable inputs when considering 

	numerical simulations of thermal behaviour of buildings. Firstly, 

	we will present the method developed to determine the function governing 

	the enthalpy with respect to the temperature of the material. It 

	is based on the use of experimental measurements together with an 

	inversion method: by comparing the heat flow with a simulated one, 

	obtained by assuming an a priori formulation of the enthalpy (which 

	set some basic thermodynamical constraints), we may calculate the 

	numerical values of the associated parameters. Secondly, we will 

	show that this method can be extended to macroscopic and heterogeneous 

	materials, which are more representative of real samples. Eventually, 

	we will show on some examples of thermal buildings simulations the 

	necessity to correctly represent the PCM behaviour if one wants to 

	use them in the future so as to save energy and for a better comfort.},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{gloriant_etude_2015,

title = {L'étude des performances d'une fenêtre ventilée pour la récupération de chaleur par l'air neuf de ventilation},

author = {Francois Gloriant and Annabelle Joulin and Pierre Tittelein and Stéphane Lassue},

year  = {2015},

date = {2015-06-01},

booktitle = {Actes du CIFQ 2015},

address = {Sherbrook},

abstract = {Cette communication a pour objet l’étude numérique des performances 

	d’une fen^etre ventilée (pariétodynamique), dont le 

	principe repose sur la circulation de l’air neuf de ventilation 

	entre les vitrages avant son introduction dans un logement. L'étude 

	est réalisée `a l'aide d'un code de calcul commercial 

	de mécanique des fluides numériques (MFN) permettant la mise 

	au point d'un mod`ele simplifié adapté `a la simulation 

	thermique des b^atiments. A partir des résultats de simulation, 

	des études paramétriques sont effectuées afin de rendre 

	compte des facteurs influant sur les performances énergétiques 

	de la fen^etre tels que : •le débit d’air ; •les épaisseurs 

	de cavité ; •la présence de rev^etements faiblement 

	émissifs ; •les dimensions de la surface vitrée.},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{gloriant_etude_2015-1,

title = {Etude expérimentale d'une fenêtre parietodynamique de type Paziaud},

author = {Francois Gloriant and Pierre Tittelein and Annabelle Joulin and Stéphane Lassue},

year  = {2015},

date = {2015-05-01},

booktitle = {actes du Congrès Français de Thermique 2015},

address = {La Rochelle},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{gloriant_study_2015,

title = {Study Of Ŧhe Performances Of A Supply-Air Window For Air Renewal Pre-Ħeating},

author = {Francois Gloriant and Pierre Tittelein and Annabelle Joulin and Stéphane Lassue},

year  = {2015},

date = {2015-06-01},

booktitle = {Proceedings of IBPC 2015},

address = {Torino (Italy)},

abstract = {The principle of a supply-air window is based on the air renewal circulation 

	between the glazings of a window before entering home. We study in 

	this work the Paziaud® window composed of three glazings forming 

	a U-shaped channel. The air warms up by recovering some part of the 

	heat losses from the building and also by solar radiation absorbed 

	through the glasses. This system generally works in forced convection 

	by association with an air extraction system. This type of component 

	is not embedded in usual dynamic tools for building thermal simulation. 

	A major reason of this lack is that the heat transfers through the 

	walls and the air exchange are treated separately. Moreover, this 

	particular system is characterized by different heat fluxes if we 

	consider the inner or the outer surface of the component. Our contribution 

	is based on an original and appropriate representation of convective 

	heat transfer in asymmetrically heated air layers. We offer a #simplified# 

	model that can be easily implemented in dynamic simulation tools. 

	This model is compared CFD simulations. From this model, parametric 

	studies are performed to look for the parameters influencing the 

	performance of the Paziaud® window: we show here that boundary conditions 

	in temperatures, the thickness of the cavities, low emissivity coatings 

	and the glazing area have significant effects on the performance 

	criteria. We perform the parametric study on the basis of indicators 

	specifically defined for the supply-air window},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@article{Gloriant2015,

title = {Modeling a triple-glazed supply-air window},

author = {François Gloriant and Pierre Tittelein and Annabelle Joulin and Stéphane Lassue},

year  = {2015},

date = {2015-01-01},

journal = {Building and Environment},

volume = {84},

pages = {1--9},

publisher = {Elsevier},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{titt2015b,

title = {Simulation of the thermal and energy behaviour of a composite material containing encapsulated-PCM: Influence of the thermodynamical modelling},

author = {Pierre Tittelein and Stéphane Gibout and Erwin Franquet and Kevyn Johannes and Laurent Zalewski and Frédéric Kuznik and Jean-Pierre Dumas and Stéphane Lassue and Jean-Pierre Bédécarrats and Damien David},

year  = {2015},

date = {2015-01-01},

journal = {Applied Energy},

volume = {140},

pages = {269--274},

publisher = {Elsevier},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{titt2005b,

title = {Identification of Thermal Properties and Thermodynamic Model for a Cement Mortar Containing PCM by Using Inverse Method},

author = {Pierre Tittelein and Stéphane Gibout and Erwin Franquet and Laurent Zalewski and Didier Defer},

url = {http://www.sciencedirect.com/science/article/pii/S1876610215019979},

doi = {10.1016/j.egypro.2015.11.265},

issn = {1876-6102},

year  = {2015},

date = {2015-01-01},

urldate = {2016-01-13},

journal = {Energy Procedia},

volume = {78},

pages = {1696--1701},

series = {6th International Building Physics Conference, IBPC 2015},

abstract = {The support of this study is a cement mortar containing a micro-encapsulated phase change material (PCM). The aim of this article is to identify by an inverse method the thermophysical properties of this composite material and all the parameters that are needed to build a physical model able to simulate the thermal behavior of a material containing PCM with accuracy. This approach consist in estimating different parameters that take place in the analytical relation of the enthalpy as a function of the temperature (h(T)) by comparing the response of the model with experimental results (here, heat flux measurement). A simplex algorithm allowed to minimize the quadratic criterion associated. The results obtained by inverse method are then analyzed and compared by experimental results obtained by direct method.},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@inproceedings{titt2016a,

title = {Identification of Thermal Properties and Thermodynamic Model for a Cement Mortar Containing PCM by Using Inverse Method},

author = {Pierre Tittelein and Stéphane Gibout and Erwin Franquet and Laurent Zalewski and Didier Defer},

year  = {2015},

date = {2015-01-01},

booktitle = {Proceedings of IBPC 2015},

address = {Torino (Italy)},

abstract = {The support of this study is a cement mortar containing a micro-encapsulated phase change material (PCM). The aim of this article is to identify by an inverse method the thermophysical properties of this composite material and all the parameters that are needed to build a physical model able to simulate the thermal behavior of a material containing PCM with accuracy. This approach consist in estimating different parameters that take place in the analytical relation of the enthalpy as a function of the temperature (h(T)) by comparing the response of the model with experimental results (here, heat flux measurement). A simplex algorithm allowed to minimize the quadratic criterion associated. The results obtained by inverse method are then analyzed and compared by experimental results obtained by direct method.},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@article{gloriant_study_2015-1,

title = {Study of the Performances of A Supply-Air Window for Air Renewal Pre-Heating},

author = {François Gloriant and Pierre Tittelein and Annabelle Joulin and Stéphane Lassue},

url = {http://www.sciencedirect.com/science/article/pii/S1876610215024595},

doi = {10.1016/j.egypro.2015.11.727},

issn = {1876-6102},

year  = {2015},

date = {2015-11-01},

urldate = {2016-01-26},

journal = {Energy Procedia},

volume = {78},

pages = {525--530},

series = {6th International Building Physics Conference, IBPC 2015},

abstract = {The principle of a supply-air window is based on the air renewal circulation between the glazings of a window before entering home. We study in this work the Paziaud® window composed of three glazings forming a U-shaped channel. The air warms up by recovering some part of the heat losses from the building and also by solar radiation absorbed through the glasses. This system generally works in forced convection by association with an air extraction system. This type of component is not embedded in usual dynamic tools for building thermal simulation. A major reason of this lack is that the heat transfers through the walls and the air exchange are treated separately. Moreover, this particular system is characterized by different heat fluxes if we consider the inner or the outer surface of the component. Our contribution is based on an original and appropriate representation of convective heat transfer in asymmetrically heated air layers. We offer a “simplified” model that can be easily implemented in dynamic simulation tools. This model is compared CFD simulations. From this model, parametric studies are performed to look for the parameters influencing the performance of the Paziaud® window: we show here that boundary conditions in temperatures, the thickness of the cavities, low emissivity coatings and the glazing area have significant effects on the performance criteria. We perform the parametric study on the basis of indicators specifically defined for the supply-air window.},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{sdei_social_2015,

title = {Social housing retrofit strategies in England and France: A parametric and behavioural analysis},

author = {Arianna Sdei and François Gloriant and Pierre Tittelein and Stéphane Lassue and Paul Hanna and Christophe Beslay and Romain Gournet and Mike McEvoy},

url = {http://www.sciencedirect.com/science/article/pii/S2214629615300074},

doi = {10.1016/j.erss.2015.07.001},

issn = {2214-6296},

year  = {2015},

date = {2015-11-01},

urldate = {2015-08-31},

journal = {Energy Research & Social Science},

volume = {10},

pages = {62--71},

abstract = {IFORE (Innovation for Renewal) is an EU Interreg funded partnership including two large housing associations, one in England, one in France, and a university from each country. The project is an exemplar large-scale retrofit, 100 houses have been retrofitted at Rushenden, on the Isle of Sheppey (Kent, England), and a similar number at Outreau, a suburb of Boulogne (Pas-de-Calais, France). This paper offers an overview of the methods used by the project team to find common solutions and to identify similarities between retrofit measures and occupant's behaviour in both countries. The cross-border nature of IFORE makes the project also original in relation to other similar national retrofit projects that have been developed prior to it. Dynamic thermal simulation was used to evaluate the thermal behaviour of the buildings refurbished. It is a valuable decision-making tool when assessing alternative retrofit measures. Initial surveys were carried out to make a classification of the housing stock which formed the context for the computer simulations. Some results from the simulations, carried out with ESP-r in England and Pleiade + Comfie in France, are presented in this paper. The comparison of the results from the two simulation tools shows great similarity between the two methods, which gave confidence for their use in evaluating alternative specifications for the works that have now been adopted for retrofit. At the same time sociological studies have characterised the populations in order to bring the most advantageous results from the retrofit works in reducing carbon emissions but also reducing fuel poverty whilst improving comfort standards.},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@inproceedings{tittelein_identification_2015,

title = {Identification des propriétés thermophysiques et du modèle thermodynamique par méthode inverse d'un mortier ciment contenant un mcp encapsulé},

author = {Pierre Tittelein and Stéphane Gibout and Erwin Franquet and Laurent Zalewski and Didier Defer},

year  = {2015},

date = {2015-01-01},

booktitle = {Actes du CIFQ 2015},

address = {Sherbrook},

abstract = {Le support de l'étude est un mortier ciment contenant un matériau à changement de phase (MCP) micro-encapsulé. L'objet consiste à identifier par méthode inverse les propriétés thermophysiques de ce matériau composite et les paramètres nécessaires à la construction d'un modèle capable de simuler de façon fiable le comportement thermique d'un matériau contenant un MCP. Cette approche consiste à estimer les différents paramètres intervenant dans la relation analytique de l'enthalpie en fonction de la température (h(T)) en comparant la réponse du modèle à des mesures expérimentales, ici en l'occurrence des mesures de flux. Un algorithme de type simplexe permet alors de minimiser le critère quadratique correspondant. Les résultats obtenus par méthode inverse sont analysés et comparés à des résultats expérimenatux obtenus par une méthode directe.},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {inproceedings}

}

@article{Dumas2014,

title = {Interpretation of calorimetry experiments to characterise phase change materials},

author = {Jean-Pierre Dumas and Stéphane Gibout and Laurent Zalewski and Kévyn Johannes and Erwin Franquet and Stéphane Lassue and Jean-Pierre Bédécarrats and Pierre Tittelein and Frédéric Kuznik},

year  = {2014},

date = {2014-01-01},

journal = {International Journal of Thermal Sciences},

volume = {78},

pages = {48--55},

publisher = {Elsevier},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@article{Franquet2014,

title = {Experimental and theoretical analysis of a cement mortar containing microencapsulated PCM},

author = {Erwin Franquet and Stéphane Gibout and Pierre Tittelein and Laurent Zalewski and Jean-Pierre Dumas},

year  = {2014},

date = {2014-01-01},

journal = {Applied Thermal Engineering},

volume = {73},

number = {1},

pages = {32--40},

publisher = {Elsevier},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}

@conference{gloriant_convection_2014,

title = {Convection forcée laminaire de l'air entre deux parois proches soumises à des conditions de Fourier},

author = {Francois Gloriant and Pierre Tittelein and Annabelle Joulin and Stéphane Lassue},

year  = {2014},

date = {2014-06-01},

booktitle = {actes du Congrès Français de Thermique 2014},

address = {Lyon},

abstract = {On se propose de modéliser un écoulement laminaire d'air en 

	convection forcée entre deux parois dont les conditions aux limites 

	de chauffage asymétrique imposées sont des conditions de 

	type Fourier. Dans le cas d'un chauffage symétrique, lorsque 

	le régime thermique et le régime dynamique sont établis, 

	le nombre de Nusselt est déterminé analytiquement et les 

	valeurs calculées sont constantes. Cependant, le probl`eme 

	étudié ici repose sur des conditions aux limites constantes 

	mais différentes sur les deux parois du canal vertical, et par 

	conséquent la résolution analytique, notamment pour des conditions 

	aux limites de Fourier, devient plus délicate},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{johannes_materiaux_2014,

title = {Matériaux à changement de phase intégrés dans les parois : impact de la modélisation du changement de phase sur le comportement thermique du bâtiment},

author = {Kévyn Johannes and Damien David and Frédéric Kuznik and Pierre Tittelein and Laia Masbernat and Laurent Zalewski and Stéphane Gibout and Erwin Franquet and Jean-Pierre Dumas and Jean-Pierre Bédécarrats and Stéphane Lassue},

year  = {2014},

date = {2014-05-01},

booktitle = {actes de la conférence IBPSA France 2014},

address = {Arras},

abstract = {Nos récentes études ont montré que l’utilisation sans 

	précautions d’un thermogramme issu d’une mesure calorimétrique 

	pouvait conduire `a des erreurs importantes sur l’estimation 

	des flux et des températures de surface d’une paroi de b^atiment 

	contenant des matériaux `a changement de phase. Il est par 

	conséquent indispensable d’évaluer si la mauvaise interprétation 

	du thermogramme a également une répercussion `a l’échelle 

	du b^atiment. L’étude présentée dans ce papier a 

	été menée par voie numérique en testant deux types 

	de représentation de l’enthalpie en fonction de la température 

	i) l’enthalpie issue directement de la DSC ii) l’enthalpie issue 

	d’un mod`ele inverse, en considérant le MCP comme un corps 

	binaire. Les résultats montrent qu’il existe des différences 

	importantes en fonction du mod`ele utilisé. Il est donc nécessaire 

	d’avoir recourt `a l’inversion de mod`ele pour évaluer 

	correctement l’influence du MCP sur le comportement thermique du 

	b^atiment.},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{titt2014a,

title = {Impact de la méthode de modélisation sur la simulation du comportement thermique d'un matériau contenant des microcapsules à changement de phase.},

author = {Pierre Tittelein and Stéphane Gibout and Erwin Franquet and Frédéric Kuznik and Kevyn Johannes and Laurent Zalewski and Jean Pierre Dumas and Stéphane Lassue and Jean-Pierre Bedecarrats},

year  = {2014},

date = {2014-06-01},

booktitle = {actes du Congrès Français de Thermique 2014},

address = {Lyon},

abstract = {L'objet de cet article est de comparer les mod`eles utilisés 

	pour reproduire le comportement d'un mortier intégrant des microbilles 

	de matériaux `a changement de phase (MCP). Les mod`eles 

	testés sont un mod`ele basé sur la méthode dite du 

	#Cp#é#quivalent# issu du thermogramme du MCP, un mod`ele enthalpique 

	basé sur une hypoth`ese de corps pur et un mod`ele basé 

	sur une hypoth`ese de mélange binaire. Les résultats de 

	ces mod`eles sont comparés `a ceux d'une expérience 

	sur un échantillon de dimensions 25x25x4cm3 soumis `a des 

	variations de températures. On mesure les flux `a la surface 

	de cet échantillon `a l'aide de fluxm`etres. On montre 

	alors que seul le mod`ele enthalpique basé sur une hypoth`ese 

	de corps binaire permet de représenter fid`element le comportement 

	expérimental.},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@book{gradd2013,

title = {Livre blanc sur les recherches en énergétique des bâtiments. Groupe d'Analyse Prospective Thématique Bâtiment et Ville Durables},

author = {Gilbert Achard and Patrick Achard and Alain Bastide and Florian Battezzati and Riad Benelmir and Christophe Beslay and Patrice Blondeau and Emmanuel Bozonnet and Thibaut Colinart and Benoît Delinchant and Maxime Doya and Mohamed Elmankibi and Gilles Fraisse and Christian Ghiaus and Alain Guiavarch and Arnaud Jay and Gérard Jeandel and Frédéric Kuznik and Stéphane Lassue and Hervé Lesueur and Christophe Menezo and Laurent Mora and Marjorie Musy and Alexandre Nassiopoulos and Alain Neveu and Jérôme Nicolle and Elena Palomo and Nicolas Petit and Bruno Peuportier and Mickaël Philippe and Stéphane Ploix and Michel Pons and Jean-Jacques Roux and Gilles Rusaouen and Philippe Quirion and Françoise Thellier and Stéphane Thiers and Pierre Tittelein and Monika Woloszyn and Etienne Wurtz and Frédéric Wurtz and Laurent Zalewski and Marie-Christine Zelem and Georges Zissis and Assaad Zoughaib},

year  = {2013},

date = {2013-01-01},

publisher = {Presse des Mines Transvalor},

series = {développement durable},

note = {OS},

keywords = {ER5},

pubstate = {published},

tppubtype = {book}

}

@conference{arid2013a,

title = {Caractérisation numérique du comportement thermique d'un mortier contenant un MCP via un modèle enthalpique unidimension},

author = {Ahmed Arid and Pierre Tittelein and Laurent Zalewski and Hassane Naji and Stéphane Lassue},

year  = {2013},

date = {2013-01-01},

booktitle = {Proceedings of XIème Colloque Interuniversitaire Franco-Québécois sur la Thermique des Systèmes},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{gloriant_echanges_2013,

title = {Échanges convectifs entre deux parois planes, verticales, soumises à des conditions de type Fourier},

author = {Francois Gloriant and Annabelle Joulin and Pierre Tittelein and Stéphane Lassue},

year  = {2013},

date = {2013-05-01},

booktitle = {actes du Congrès Français de Thermique 2013},

address = {Gérarmer (France)},

abstract = {Cet article traite du probl`eme de la convection forcée d’un 

	écoulement d’air en régime laminaire dans un conduit formé 

	par deux plans parall`eles soumis `a des conditions aux limites 

	de type Fourier. Deux modélisations basées sur des bilans 

	thermiques sont présentées et leurs résultats sont comparés 

	aux données numériques issues de simulations 2D effectuées 

	avec le logiciel Fluent®. Une réflexion est menée sur la 

	façon dont les coefficients de convection caractérisant 

	les échanges thermiques entre le fluide et chacune des parois 

	peuvent ^etre définis.},

note = {ACTN},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{gloriant_modelisation_2013,

title = {Modèlisation d'une fenêtre parieto-dynamique dans la simulation thermique d'un bâtiment.},

author = {Francois Gloriant and Pierre Tittelein and Annabelle Joulin and Stéphane Lassue},

year  = {2013},

date = {2013-06-01},

booktitle = {CIFQ 2013},

address = {Reims (France)},

abstract = {Le principe de la fen^etre pariéto-dynamique consiste `a 

	faire circuler l’air neuf de ventilation entre des lames de verre 

	avant son introduction dans le volume habitable. Une partie de la 

	chaleur traversant les vitrages est alors récupérée par 

	le flux d’air. Actuellement la prise en compte de ce genre de syst`eme 

	dans les codes de simulation thermique des b^atiments n’est 

	pas satisfaisante. Cet article propose un mod`ele qui peut ^etre 

	implémenté relativement aisément dans de nombreux outils 

	de simulations existant. Ce mod`ele est basé sur une résolution 

	analytique du probl`eme de l’air circulant entre deux plaques 

	isothermes différentiellement chauffées. Il a été 

	implémenté dans la biblioth`eque de composants de l’outil 

	de simulation Modelica. Une attention particuli`ere a été 

	portée sur les échanges convectifs en lame d’air entre 

	les vitrages. Les résultats obtenus sont comparés `a ceux 

	d’un outil de simulation CFD commercial, le code Fluent©},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{gloriant_modelling_2013,

title = {Modelling supply-air window in a building simulation code},

author = {Francois Gloriant and Pierre Tittelein and Annabelle Joulin and Stéphane Lassue},

year  = {2013},

date = {2013-01-01},

booktitle = {Building Simulation 2013},

address = {Chambéry (France)},

abstract = {The concept of a supply-air window is to allow air renewal circulating 

	between glasses before entering inwards. Based on this principle, 

	a part of heat transfer through the glasses is recovered by air renewal. 

	Actually, the way to consider it in a building simulation code is 

	not satisfactory. This article proposes a model that can be implemented 

	easily in many building simulation codes. This model is based on 

	the analytical solution of the problem of air circulating between 

	isotherm panes differentially heated. It has been implemented in 

	Buildings library of Modelica. Short wave radiation is considered 

	by using the equation of Window software. Long wave radiation is 

	considered using radiosity model. A special attention is taken to 

	consider convective heat transfer coefficient between air space and 

	glasses. The results obtained are compared to those of a commercial 

	computational fluid dynamics (CFD) code (Fluent).},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{gloriant_supply-air_2013,

title = {Supply-Air Window Model adapted to Building Energy Performance Simulation},

author = {Francois Gloriant and Pierre Tittelein and Annabelle Joulin and Stéphane Lassue},

year  = {2013},

date = {2013-06-01},

booktitle = {CLIMA 2013; 11th REHVA World Congress},

address = {Prague (Czech Republic)},

abstract = {The principle of a supply-air window is to make the renewal airflow 

	circulating between the panes of glass before entering inside the 

	room. The goal is to create a passive system of heat recovery contributing 

	also to the room ventilation. The aim of this article is to define 

	the best way to take into account this kind of window in building 

	energy simulations. Depending on the case studied and the accuracy 

	desired, it can be modelled simply considering a constant U-value 

	pre-calculated, considering a U-value and a heat recovery on air 

	renewal or considering a model closer to the physical reality but 

	easy to implement in a building performance code. These models are 

	compared to an accurate model using Computational Fluid Dynamics 

	(CFD). The way to consider the problem can be used for every kind 

	of supply-air window (and also for exhaust-air window), but for more 

	clarity, a precise example was considered in this article. It is 

	the case of Paziaud® window that is a triple glazed window with 

	a U-shaped air channel.},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@conference{sdei_dynamic_2013,

title = {Đynamic thermal modeling of retrofitted social housing in England and France},

author = {Arianna Sdei and Pierre Tittelein and Stéphane Lassue and Mike E McEvoy},

year  = {2013},

date = {2013-06-01},

booktitle = {CLIMA 2013; 11th REHVA World Congress},

address = {Prague (Czech Republic)},

abstract = {IFORE (Innovation for Renewal) is an EU Interreg funded partnership 

	including two large housing associations, one in England, one in 

	France, and a university from each country. The project is an exemplar 

	large-scale retrofit, 100 houses are in the process of being retrofitted 

	at Rushenden, on the Isle of Sheppey (England), and 100 at Outreau, 

	a suburb of Boulogne (France). Dynamic thermal simulation, as a valuable 

	decision-making tool to assess the retrofit measures, was used in 

	both countries. The results of the modelling carried out with ESP-r 

	in England and Pleiade+Comfie in France are presented in this paper. 

	The comparison of the results from the two simulation tools shows 

	great similarity between the two methods. As a first step towards 

	validating the models, measures of the indoor and outdoor environmental 

	parameters were carried out in the two countries since November 2011. 

	In France the indoor temperature can vary from 13°C to 23°C for 

	the same kind of building in the same winter day and in both countries 

	the houses are under heated. A comparison of the degree days/ kWh 

	using the average monitored outdoor temperature and information from 

	the gas bills shows that the modelling results are in line with the 

	current consumption of energy heating. The models will therefore 

	be used for further assessments},

note = {ACTI},

keywords = {ER5},

pubstate = {published},

tppubtype = {conference}

}

@article{titt2013,

title = {Corrigendum to Modelling earth-to-air heat exchanger behaviour with the convolutive response factors method [Appl. Energy 86 (9) 1683--1691]},

author = {Pierre Tittelein and Gilbert Achard and Etienne Wurtz},

year  = {2013},

date = {2013-01-01},

journal = {Applied Energy},

number = {107},

pages = {474},

note = {ACL},

keywords = {ER5},

pubstate = {published},

tppubtype = {article}

}