Nombre de documents

53

CV Pierre-Emmanuel BOURNET


 

Pierre-Emmanuel BOURNET

Professor in physics of transfers at AGROCAMPUS OUEST, Campus of Angers , France

 

Department of Physical Environment, Landscape Architecture and Territorial Development (MilPPaT)

Environmental Physics and Horticulture Research Unit (EPHor)

E-mail : pierre-emmanuel.Bournet@agrocampus-ouest.fr

Tel : +33 (0) 2 41 22 55 04

Address : AGROCAMPUS OUEST, 2 rue André Le Nôtre, 49045 ANGERS cedex, France

 

After an engineer diploma in hydraulics and fluid mechanics (at ENSEEIHT, Toulouse, France), I started a PhD thesis in environmental sciences in a laboratory (CEREVE) belonging to the water and forest engineering school (ENGREF) and to the bridges and roads engineering school (ENPC) in Paris. I got a position then in administrative research for IFREMER (French National Institute for Marine Research) in Brussels. Then I got a job at Numeca Int SA, Brussels, working on environmental applications of a CFD software. I also worked for INRIA (French National Institute for Research in Computer Science and Control) on fluid-structure coupling before I became assistant professor in Fluid mechanics at the French National Agronomic Institute (INA-PG) in Paris in 2001. Finally, I got an assistant professor position in Agrocampus Ouest, Angers, France in 2001. In 2011, I became professor in physics of transfers and since 2012, I am the head of the EPHor (Environmental Physics and Horticulture) research unit.

Training

 

2008 : Accreditation to supervise research (Habilitation à Diriger des Recherches), University of Angers, speciality Physics: « Contribution to the modelling of flows and transfers in fluid mechanics: analysis of several coulping mechanisms.»

1996 : PhD thesis at ENGREF (National School of Agriculture, Environment, Water and Forestry, Paris, France) in environmental sciences: « Contribution to the hydrodynamic and thermal study of lake Bourget: density currents and internal waves » 

1993 : Engineer diploma at ENSEEIHT (Engineering school in Electrical Engineering, Electronics, Computer Science, Hydraulics and Telecommunications, Toulouse, France) in hydraulics and fluid mechanics

1999 :Master degree at UPS (Paul Sabatier University, Toulouse) in environmental physics and chemistry

Career path

Since 2012: Head of the EPHor research unit (Environmental Physics and Horticulture)

Since 2011: Professor, Agrocampus Ouest, Institut National d’Horticulture et de Paysage, Angers

2001-2011: Assistant professor, Agrocampus Ouest, Institut National d’Horticulture et de Paysage

1999-2000: Assistant professor, Institut National Agronomique Paris-Grignon (INA P-G), Paris

1999: Engineer, French National Institute for Research in Computer Science and Control (INRIA), Sophia Antipolis

1998-1999: Engineer, Numeca Int. S.A.-Université Libre Flamande Bruxelles

1997-1998: Delegate at the european institutions for IFREMER (French National Institute of Marine Research) –Club of associated research institutes (CLORA), Bruxelles

1993-1996     Phd student (grant from ENGREF-French ministry of agriculture), research laboratory on water, city and environment (CEREVE) ENGREF ENPC, Noisy-le Grand

Teaching

Department of Physical Environment, Landscape Architecture and Territorial Development (MilPPaT)

Teaching unit « Physics of transfers and bioclimatology »

Teaching courses:

·         Hydraulics (L3I & L3A),

·         Landscape engineering (M1 major Landscape), Water management (M1 specialty Horticulture),

·         Sciences and technics for landscape engineers (M2 Landscape)

·         + several short courses (M2 major Horticulture, M1 initiation to project engineering)

 

Teaching topics: fluid mechanics, hydraulics, water management; implementation: dimensioning of structures, sanitation, drainage, watering, irrigation, pumps, greenhouse climate.

Research topics

I belong to the Environmental Physics and Horticulture research unit (EPHor), AGROCAMPUS OUEST.

My research interest is about the coupled mass-energy transfers in the context of horticultural production. I mainly focus on the modelling of greenhouse distributed climate with a particular attention paid to the radiative transfers and interactions of the crop with the local climate. Recently, we paid attention to the impact of water restriction on the energy and water transfers in the substrate-plant-atmosphere continuum.

The models developed for the horticultural applications are currently adapted to urban applications. The aim is to reduce water consumption while guaranteed the ecosystem services of the urban plants – particularly the evaporative cooling to mitigate the urban heat island effect.

I also developed activities on livestock buildings. The aim was to characterize the climate inside such buildings in terms of temperature and humidity, but also to analyze gaseous transfers (ammonia in particular) and plume spreading outside of the building.

 

My former fields of research dealt with: environment (hydrodynamics, pollutant transfer, atmospheric flows …), limnology, river and marine hydraulics, naval hydraulics,  thermics, cooling processes (for food conservation) and fluid-structure interaction (applied to bridges).

During the last few years I focused on

·    greenhouse climate (opening management, energy balance, plant-climate interaction, impact of water restriction, condensation),

·    livestock building climate (climate distribution, gaseous transfers).

·    And recently on urban climate: plant interaction with local climate taking account of shading, water inputs, soil compaction. Another point of interest is climate ecosystem services provided by trees in urban environments.

 

Keywords: greenhouse, livestock building, fluid mechanics, thermics, radiation, coupling, turbulence, CFD, numerical methods, sensible and latent heat, porous medium, metrology

Research programs

Recently Finished Programs

·         Plantinov’ser (2009-13):  Funded by ADEME and Région Pays de la Loire. This project aimed at limiting the greenhouse crop systems energy consumption by providing new cultivars and new climatic strategies. The research unit showed the economic and technical interest of dehumidification heat pump. Experimental validation conducted on ornamental crops evidenced the efficiency of our innovative control strategy.

·         Physi’Ho (2012-16): Funded by Région Pays de la Loire and growers. The project aims at understanding the interactions between climate, pathogens and hydrangea physiology, and their influence on the plants storage.

·         Conser (2012-16): Funded by Région Pays de la Loire and growers. This project aims at improving the understanding of the cucumber plants responses to greenhouse climate. The project made a physiologic reference of the cucumber photosynthetic efficiency according to climatic conditions in order to improve the energetic efficiency of the climate strategies.

Current Programs

·         Canyon Street (2016-21): funded by ADEME and French ministry of agriculture. This project aims at quantifying the water and energy transfers in the soil-plant-atmosphere continuum in urban condition. The project will focus in particular on the plant’s influence on the urban microclimate especially under water restriction. It includes an experimental stage based on a reduced scale model of a canyon street with trees, and on a modelling approach of the distributed climate based on CFD (Computational Fluid Dynamics).

·         OBAUC Project (2016-18): funded by Région Pays de la Loire. The aim of the project is to characterize plant-environment interrelations, to understand and predict plant development. The specific goals are to analyze the combined effects of soil compaction, water supply restriction and shading on plant transpiration, plant biomass as well as aerial and root architecture.

·         Nature 4 Cities (2016-20): funded by the European Commission (H2020). Nature4Cities aims at developing complementary and interactive modules to engage urban stakeholders in a collective-learning process about renaturing cities, develop and circulate an extensive knowledge base on Natural Based Solution (NBS), new business, financial and governance models for NBS projects, as well as providing tools for the impact assessment, valorization and follow-up of NBS projects. Our aims will be to provide performance assessment of NBS regarding a range of urban challenges by providing definitions of a multi-scalar and cross-thematic sets of urban performance indicators.

·         Hortinergy project (2017): funded by ADEME. Development of a software to simulate the heat balance of a greenhouse with Agrithermic company. We work on the integration of plant impact on the heat balance in the software.

International congress Greensys2019

I am convener (together with INRA and CTIFL) of the Greensys2019 international symposium which will be held at the convention center of Angers between June 16-20.


Article dans une revue31 documents

  • Hacene Bouhoun Ali, Pierre-Emmanuel Bournet, Patrice Cannavo, Etienne Chantoiseau. Development of a CFD crop submodel for simulating microclimate and transpiration of ornamental plants grown in a greenhouse under water restriction. Computers and Electronics in Agriculture, Elsevier, 2017, 〈10.1016/j.compag.2017.06.021〉. 〈hal-01562937〉
  • Hacene Bouhoun Ali, Pierre-Emmanuel Bournet, Patrice Cannavo, Etienne Chantoiseau. Stomatal resistance modelling under water restriction conditions by means of design of experiments: comparison with the Jarvis method. Acta Horticulturae, International Society for Horticultural Science, 2017, pp.145 - 152. 〈10.17660/ActaHortic.2017.1182.17〉. 〈hal-01816704〉
  • Patrice Cannavo, Hacene Bouhoun Ali, Etienne Chantoiseau, Pierre-Emmanuel Bournet. Improving water use efficiency for ornamental crops grown in greenhouses: a substrate-plant-atmosphere model validation for transpiration prediction. Acta Horticulturae, International Society for Horticultural Science, 2017, pp.161 - 168. 〈10.17660/ActaHortic.2017.1182.19〉. 〈hal-01764283〉
  • Etienne Chantoiseau, M. Sourgnes, Christophe Migeon, Hacene Bouhoun Ali, Pierre-Emmanuel Bournet, et al.. Ability of multiplicative models to simulate stomatal resistance along plant growth: application to New Guinea impatiens grown in a greenhouse. Acta Horticulturae, International Society for Horticultural Science, 2017, pp.409 - 416. 〈10.17660/ActaHortic.2017.1170.50〉. 〈hal-01705938〉
  • K. Mesmoudi, K.H. Meguellati, Pierre-Emmanuel Bournet, L. Serir. Numerical prediction of thermal environment and energy consumption of three different greenhouses under hot and semi-arid climate. Acta Horticulturae, International Society for Horticultural Science, 2017, 132 (1170), pp.79 - 86. 〈10.17660/ActaHortic.2017.1170.8〉. 〈hal-01819660〉
  • Hacene Bouhoun Ali, Pierre-Emmanuel Bournet, Patrice Cannavo, Christophe Migeon, Etienne Chantoiseau, et al.. Stomatal resistance modelling using the full factorial design: application to the New Guinea impatiens. Acta Horticulturae, International Society for Horticultural Science, 2017, 88 (1170), pp.399 - 408. 〈10.17660/ActaHortic.2017.1170.49〉. 〈hal-01705928〉
  • Etienne Chantoiseau, H. Bouhoun Ali, Pierre-Emmanuel Bournet, P. Cannavo, Christophe Migeon, et al.. Modelling the stomatal resistance under water comfort and restriction to assess the transpiration of a greenhouse New Guinea impatiens crop. Acta Horticulturae, International Society for Horticultural Science, 2017, pp.611 - 618. 〈10.17660/ActaHortic.2017.1170.76〉. 〈hal-01705933〉
  • Hacene Bouhoun Ali, Pierre-Emmanuel Bournet, Vianney Danjou, Christophe Migeon. CFD analysis of the climate inside a closed greenhouse at night including condensation and crop transpiration. Acta Horticulturae, International Society for Horticultural Science, 2017, pp.53 - 60. 〈10.17660/ActaHortic.2017.1170.5〉. 〈hal-01818130〉
  • K. Mesmoudi, K. H. Meguallati, Pierre-Emmanuel Bournet. Effect of the greenhouse design on the thermal behavior and microclimate distribution in greenhouses installed under semi-arid climate. Heat Transfer—Asian Research, 2017, 35 (3), pp.n/a-n/a. 〈10.1002/htj.21274〉. 〈hal-01524500〉
  • Kamel Mesmoudi, Kheireddine Meguellati, Pierre-Emmanuel Bournet. Thermal analysis of greenhouses installed under semi arid climate. International Journal of Heat and Technology, International Information and Engineering Technology Association, 2017, 35 (3), pp.474-486. 〈10.18280/ijht.350304〉. 〈hal-01817756〉
  • Fernando Rojano, Pierre-Emmanuel Bournet, Melynda Hassouna, Paul Robin, Murat Kacira, et al.. Computational modelling of thermal and humidity gradients for a naturally ventilated poultry house. Biosystems Engineering, Elsevier, 2016, 151, pp.273-285. 〈10.1016/j.biosystemseng.2016.09.012〉. 〈hal-01523672〉
  • Hacene Bouhoun Ali, Pierre-Emmanuel Bournet, Patrice Cannavo, Etienne Chantoiseau, M. Sourgnes. Stomatal resistance of New Guinea Impatiens pot plants. Part 1: Model development for well watered plants based on design of experiments. Biosystems Engineering, Elsevier, 2016, 149, pp.112-124. 〈10.1016/j.biosystemseng.2016.05.004〉. 〈hal-01523676〉
  • Etienne Chantoiseau, Christophe Migeon, Gérard Chasseriaux, Pierre-Emmanuel Bournet. Heat-pump dehumidifier as an efficient device to prevent condensation in horticultural greenhouses. Biosystems Engineering, Elsevier, 2016, 142, pp.27-41. 〈http://www.sciencedirect.com/science/article/pii/S153751101500183X〉. 〈10.1016/j.biosystemseng.2015.11.011〉. 〈hal-01257561〉
  • Patrice Cannavo, H. B. Ali, Etienne Chantoiseau, Christophe Migeon, Sylvain Charpentier, et al.. Stomatal resistance of New Guinea Impatiens pot plants. Part 2: Model extension for water restriction and application to irrigation scheduling. Biosystems Engineering, Elsevier, 2016, 149, pp.82-93. 〈10.1016/j.biosystemseng.2016.07.001〉. 〈hal-01523674〉
  • Fernando Rojano, Pierre-Emmanuel Bournet, Melynda Hassouna, Paul Robin, Murat Kacira, et al.. Modelling heat and mass transfer of a broiler house using computational fluid dynamics. Biosystems Engineering, Elsevier, 2015, 136, pp.25-38. 〈10.1016/j.biosystemseng.2015.05.004〉. 〈hal-01461077〉
  • Hacene Bouhoun Ali, Pierre-Emmanuel Bournet, Vianney Danjou, Benjamin Morille, Christophe Migeon. CFD simulations of the night-time condensation inside a closed glasshouse: Sensitivity analysis to outside external conditions, heating and glass properties. Biosystems Engineering, Elsevier, 2014, 127, pp.159-175. 〈10.1016/j.biosystemseng.2014.08.017〉. 〈hal-01526013〉
  • Gérard Chasseriaux, Etienne Chantoiseau, Christophe Migeon, Pierre-Emmanuel Bournet. A dehumidification strategy to avoid condensation on plants and spare energy in greenhouse. Acta Horticulturae, International Society for Horticultural Science, 2014, pp.453-460. 〈hal-01526039〉
  • L. Serir, Pierre-Emmanuel Bournet. Co-simulation of the Microclimate inside a Greenhouse by Coupling Energy and CFD Models. Acta Horticulturae, 2014, pp.1043-1048. 〈hal-01537218〉
  • B. Morille, R. Genez, Christophe Migeon, Pierre-Emmanuel Bournet, H. B. Ali. w Night Time CFD Simulations of the Distributed Climate inside a Glasshouse. Acta Horticulturae, International Society for Horticultural Science, 2013, 1008, pp.201-206. 〈hal-01526197〉
  • L. Serir, A. Bouhdjar, Pierre-Emmanuel Bournet. Coupling Global and Distributed Climate Models to Better Assess Heat Transfers through the Cover of a Greenhouse. Acta Horticulturae, International Society for Horticultural Science, 2013, 1008, pp.303-308. 〈hal-01526196〉
  • K. Mesmoudi, B. Zitouni, T. Outtas, Pierre-Emmanuel Bournet. Numerical Simulation of the Airflow and Temperature Distribution in a Closed Empty Venlo Glasshouse under Hot and Arid Climate. Acta Horticulturae, International Society for Horticultural Science, 2013, 1008, pp.235-240. 〈hal-01526199〉
  • B. Morille, Christophe Migeon, Pierre-Emmanuel Bournet. Is the Penman-Monteith model adapted to predict crop transpiration under greenhouse conditions? Application to a New Guinea Impatiens crop. Scientia Horticulturae, Elsevier, 2013, 152, pp.80-91. 〈10.1016/j.scienta.2013.01.010〉. 〈hal-01526195〉
  • A. Kichah, Pierre-Emmanuel Bournet, Christophe Migeon, T. Boulard. Measurement and CFD simulation of microclimate characteristics and transpiration of an Impatiens pot plant crop in a greenhouse. Biosystems Engineering, Elsevier, 2012, 112 (1), pp.22-34. 〈10.1016/j.biosystemseng.2012.01.012〉. 〈hal-00841037〉
  • A. Kichah, Pierre-Emmanuel Bournet, Christophe Migeon, T. Boulard. Corrigendum to "Measurement and CFD simulation of microclimate characteristics and transpiration of an Impatiens pot plant crop in a greenhouse" [Biosyst. Eng. 112 (1) (2012) 22-34]. Biosystems Engineering, Elsevier, 2012, 112 (3), pp.252-252. 〈10.1016/j.biosystemseng.2012.04.006〉. 〈hal-00841036〉
  • B. Morille, Christophe Migeon, Pierre-Emmanuel Bournet. Effect of the Heterogeneity of the Radiation Distribution on the Crop activity. Acta Horticulturae, International Society for Horticultural Science, 2011, non paginé. 〈10.17660/ActaHortic.2012.952.95〉. 〈hal-00729275〉
  • Pierre-Emmanuel Bournet, Thierry Boulard. Effect of ventilator configuration on the distributed climate of greenhouses: A review of experimental and CFD studies. Computers and Electronics in Agriculture, Elsevier, 2010, 74 (2), pp.195-217. 〈10.1016/j.compag.2010.08.007〉. 〈hal-00729708〉
  • Kamel Mesmoudi, Azedine Soudani, Pierre-Emmanuel Bournet. Determination of the inside air temperature of a greenhouse with tomato crop under hot and arid climates. Journal of Applied Sciences and Environmental Management, University of Port Harcourt, 2010, 5 (2), pp.117-129. 〈hal-00729706〉
  • A. Cable, Pierre-Emmanuel Bournet, B. Morille, Gérard Chasseriaux. Predicting the Distributed Climate inside a Venlo Glasshouse with CFD Considering the Variation of Solar Radiation at Daily Time Scale. Acta Horticulturae, International Society for Horticultural Science, 2010, 927, pp.643-650. 〈10.17660/ActaHortic.2012.927.79〉. 〈hal-00841039〉
  • Pierre-Emmanuel Bournet. A contribution to the study of thermal and hydrodynamical behaviour of lake Bourget: density currents and internal waves. La Houille Blanche - Revue internationale de l'eau, EDP Sciences, 2000, pp.11--15. 〈hal-00711825〉
  • Serge Piperno, Pierre-Emmanuel Bournet. Numerical simulations of wind effects on flexible civil engineering structures. Revue Européenne des Eléments Finis, Hermès, 1999, 8 (5-6), pp.659-687. 〈hal-00607761〉
  • Brigitte Vinçon-Leite, Pierre-Emmanuel Bournet, X. Gayte, D. Fontvieille, Bruno Tassin. Impact of a flood event on the biogeochemical behaviour of a mesotrophic alpine lake: Lake Bourget (Savoy). Hydrobiologia, Springer, 1998, 373-374 (-), pp.361. 〈hal-00779566〉

Communication dans un congrès19 documents

  • Patrice Cannavo, Christophe Migeon, Ngariban Tamtial, Etienne Chantoiseau, Sylvain Charpentier, et al.. Modelling soil-plant-atmosphere water transfer in greenhouse cultivation, under water restriction: how does plant growth affects transpiration and soil hydrodynamic properties?. International Conference of Agricultural Engineering, Jul 2014, Zurich, Switzerland. Proceedings International Conference of Agricultural Engineering, Zurich, 06-10.07.2014. 〈hal-01705940〉
  • Mesmoudi K., Pierre-Emmanuel Bournet. Assessing the Daily Evolution of the Climate inside a Greenhouse under Semi-Arid Conditions using Field Surveys and CFD Modelling. Son, J. E. L., I. B. and Oh, M. M. International Symposium on New Technologies for Environment Control, Energy-Saving and Crop Production in Greenhouse and Plant Factory - Greensys 2013, 2014, Jeju, Korea Republic, Unknown Region. pp.1049-1054, 2014. 〈hal-01541904〉
  • F. Rojano, Pierre-Emmanuel Bournet, M. Hassouna, Robin P., Kacira M., et al.. Predicting Sensible and Latent Heat Generation with CFD in Animal Housing for Dairy Cattle. International Conference for Agricultural Engineering, Jul 2014, Zurich, Allemagne, Albania. 2014. 〈hal-01541900〉
  • Pierre-Emmanuel Bournet. Assessing greenhouse climate using CFD: a focus on air humidity issues. Son, J. E. L., I. B. and Oh, M. M. ISHS Acta Horticulturae 1037: International Symposium on New Technologies for Environment Control, Energy-Saving and Crop Production in Greenhouse and Plant Factory - Greensys 2013, 2014, Jeju, Korea Republic, Unknown Region. pp.971-985, 2014. 〈hal-01541905〉
  • F. Rojano, Pierre-Emmanuel Bournet, M. Hassouna, Robin P., Kacira M., et al.. Test of two different schemes through CFD to include heat and mass transfer induced by animals inside a broiler house. proceedings of the International Conference for Agricultural Engineering, Jul 2014, Zurich, Allemagne, Germany. 2014. 〈hal-01541901〉
  • B. Morille, R. Genez, Christophe Migeon, Pierre-Emmanuel Bournet, H. Bouhoun Ali. CFD Simulations of the Distributed Climate Time-Evolution inside a Glasshouse at Night. Interrnational conference of agricultural engineering, Jul 2012, Valence (ES), Spain. 〈hal-00918013〉
  • K. Mesmoudi, Pierre-Emmanuel Bournet, S. Bougoul. Thermal performance of an unheated greenhouse under semi arid climate: nocturnal study. International Symposium on "Advanced technologies and management towards sustainable greenhouse ecosystems-GreenSys2011, Jun 2011, Halkidiki (GR), Greece. non paginé, 2011. 〈hal-00841868〉
  • B. Morille, Pierre-Emmanuel Bournet, Christophe Migeon. Approches expérimentale et numérique du climat distribué à l’échelle de l'abri et de la plante en cultures ornementales sous serre : analyse des transferts de masse et de chaleur, bilans énergétiques. 6èmes rencontre du végétal, Jan 2011, Angers (FR), France. pp.1, 2011. 〈hal-00841871〉
  • K. Mesmoudi, A. Soudani, Pierre-Emmanuel Bournet, S. Bougoul. Convection heat transfer conductance at the greenhouse cover : an experimental approach. 2nd International Conference on Energy Conversion and Conservation CICME 2010, Apr 2010, Hammamet (TUN), Tunisia. 〈hal-00729705〉
  • L. Serir, H. Benmoussa, Pierre-Emmanuel Bournet, K. Mesmoudi. Thermal simulation of a greenhouse under semi-arid climate. Xxviii International Horticultural Congress on Science and Horticulture for People, Jun 2010, Protugal (PT), Portugal. 8 p., 2012. 〈hal-00917877〉
  • K. Mesmoudi, A. Soudani, S. Bougoul, Pierre-Emmanuel Bournet. On the determination of the convective heat transfer coefficient at the greenhouse cover under semi arid climatic conditions. Xxviii International Horticultural Congress on Science and Horticulture for People, Jun 2010, Protugal (PT), Portugal. 8 p., 2012. 〈hal-00917881〉
  • Pierre-Emmanuel Bournet, A. Kichah, Gérard Chasseriaux. Analysis of the radiation and transpiration heterogeneity inside a crop cover using Computational Fluid Dynamics.. High Technology for Greenhouse Systems - GreenSys2009, Jun 2009, Québec (CA), Canada. International Society Horticultural Science, 893 (1), pp.679-684, 2009. 〈hal-00729950〉
  • Pierre-Emmanuel Bournet, Victor Winiarek. Convective and long wavelength radiative transfers modeling inside a closed greenhouse during night. Proceedings of International Symposium on Convective Heat and Mass Transfer in Sustainable Energy, Apr 2009, Hammamet (TUN), Tunisia. pp.438-441, 2009, 〈10.1615/ICHMT.2009.CONV.1170〉. 〈hal-00729987〉
  • A. Kichah, Pierre-Emmanuel Bournet, Christophe Migeon, Gérard Chasseriaux. Experimental and numerical study of heat and mass transfers occurring at plant level inside a greenhouse. GreenSys2009, Jun 2009, Québec (CA), Canada. International Society Horticultural Science, 893 (1), pp.621-628, 2009. 〈hal-00729199〉
  • Pierre-Emmanuel Bournet. Gérer au mieux les besoins en énergie des serres, l’apport de la mécanique des fluides numérique. Innovation et agriculture durable, Jun 2009, Rennes (FR), France. 〈hal-00729218〉
  • M. Pavageau, P. Aime, Pierre-Emmanuel Bournet, E. Calcoen, C. Gerasse. eπphys : un pont entre mathématiques et physique. Congrès TICE 2008, Institut TELECOM, Oct 2008, Paris (FR), France. pp.198-203, 2008. 〈hal-00729121〉
  • A. Kichah, Pierre-Emmanuel Bournet, Gérard Chasseriaux. Predicting Crop Transpiration in a Glasshouse Using Computational Fluid Dynamics (CFD). Proceedings of the International Symposium on High Technology for Greenhouse System Management, Vols 1 and 2, Oct 2007, Louvain (BE), Belgium. International Society Horticultural Science, 801 (2), pp.933-940, 2008. 〈hal-00729784〉
  • Pierre-Emmanuel Bournet, S.A. Khaoua Ould. Predicted Effects of Roof Vent Combinations on the Climate Distribution in a Glasshouse Considering Radiative and Convective Heat Transfers. Proceedings of the International Symposium on High Technology for Greenhouse System Management, Vols 1 and 2, Oct 2007, Louvain (BE), Belgium. 〈hal-00729783〉
  • Yannis Cuypers, Brigitte Vinçon-Leite, Michel Poulin, Pierre-Emmanuel Bournet, Bruno Tassin. Ondes internes et mélange turbulent dans le lac du Bourget. Autour du lac du Bourget, May 2006, Université de Savoie - Le Bourget du Lac, France. La page blanche, pp.56-64, 2008. 〈hal-00823895〉

Direction d'ouvrage, Proceedings, Dossier1 document

  • B. Morille, Pierre-Emmanuel Bournet, Christophe Migeon. Analysis of the time evolution of the intercepted radiation inside a crop using CFD. Son, J. E.;Lee, I. B.;Oh, M. M. International Symposium on New Technologies for Environment Control, Energy-Saving and Crop Production in Greenhouse and Plant Factory - Greensys 2013, Sep 2013, Jeju, South Korea. pp.1017-1025, 2014. 〈hal-01526038〉

Autre publication1 document

  • K. Mesmoudi, A. Soudani, Pierre-Emmanuel Bournet, S. Bougol. On the determination of the convection heat transfer conductance at the greenhouse cover under semi arid climatic conditions. On the determination of the convection heat transfer conductance at the greenhouse cover under se.. 2010, non paginé. 〈hal-00729712〉

Rapport1 document

  • Pierre-Emmanuel Bournet. Validation du code NS3IFS et comparaison avec des données expérimentales pour des écoulements autour de tabliers de ponts. [Rapport de recherche] RR-3875, INRIA. 2000, pp.56. 〈inria-00072779〉