Stéphane Lassue

ORCID: 0000-0003-4279-0947
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About
Contact & Profiles
Research Areas
  • Building Energy and Comfort Optimization
  • Solar Thermal and Photovoltaic Systems
  • Phase Change Materials Research
  • Solar Energy Systems and Technologies
  • Radiative Heat Transfer Studies
  • Urban Heat Island Mitigation
  • Adsorption and Cooling Systems
  • Wind and Air Flow Studies
  • Nanofluid Flow and Heat Transfer
  • Heat Transfer and Optimization
  • Fluid Dynamics and Turbulent Flows
  • Heat Transfer and Boiling Studies
  • Heat Transfer Mechanisms
  • Greenhouse Technology and Climate Control
  • Heat transfer and supercritical fluids
  • Hygrothermal properties of building materials
  • Infection Control and Ventilation
  • Gas Dynamics and Kinetic Theory
  • Urban Green Space and Health
  • Heat and Mass Transfer in Porous Media
  • Thermography and Photoacoustic Techniques
  • Advanced Thermoelectric Materials and Devices
  • Thermal properties of materials
  • Structural Analysis of Composite Materials
  • Plant Water Relations and Carbon Dynamics

Université d'Artois
2014-2023

Laboratoire de Génie Civil et Géo Environnement
2013-2023

Université de Lille
1993-2023

Laboratoire de Mécanique et Génie Civil
2015-2020

Université Lille Nord de France
2010-2014

Université de Haute-Alsace
2012

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

10.1016/j.egypro.2017.07.467 article EN Energy Procedia 2017-09-01

This article presents the first research effort of our group to formulate, implement and validate a numerical method in order optimise design solar passive walls involving phase change materials (PCMs). The fusion ice, gallium commercially available PCM 27 (hydrated salt), engineered by Cristopia later embedded within an experiment unit, was studied. Comparisons against other prediction methods experimental data for were carried out with good agreement solutions. proposed enthalpy-based is...

10.1080/10618560903203723 article EN International journal of computational fluid dynamics 2009-08-01
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