M. Kumaran, Interlaboratory Comparison of the ASTM Standard Test Methods for Water Vapor Transmission of Materials (E 96-95), J. Test. Eval, vol.26, issue.2, pp.83-88, 1998.

H. A. Iglesias and J. Chirife, Handbook of Food Isotherms: Water Sorption Parameters for Food and Food Components, 1982.

J. Carmeliet, M. De-wit, and H. Janssen, Hysteresis and moisture buffering of wood. 7 th Nordic Symposium on Building Physics, 2005.

H. C. Huang, Y. C. Tan, C. W. Liu, and C. H. Chen, A novel hysteresis model in unsaturated soil, Hydrological Processes, vol.19, pp.1653-1665, 2005.

P. Perré, A. Challansonnex, and J. Colin, On the importance of heat and mass transfer coupling for the the characterization of hygroscopic insulation materials, Int. J. Heat Mass Transf, vol.133, pp.968-975, 2019.

U. Nyman, P. J. Gustafsson, B. Johannesson, and R. Hägglund, Numerical method for the evaluation of non-linear transient moisture flow in cellulosic materials, Int. J. Numer. Meth. Engng, vol.66, pp.1859-1883, 2006.

J. Eitelberger and S. Svensson, The sorption behavior of wood studied by means of an improved cup method, Transp. Porous Med, vol.92, pp.321-335, 2012.

M. Alexandersson, H. Askfelt, and M. Ristinmaa, Triphasic model of heat and moisture transport with internal mass exchange in paperboard, Transp. Porous Med, vol.112, pp.381-408, 2016.

N. Reuge, S. Moissette, M. Bart, F. Collet, and C. Lanos, Water transport in bio-based porous materials: A model of local kinetics of sorption-Application to tree hemp concretes, Transp. Porous Med, vol.128, issue.2, pp.821-836, 2019.

B. Johannesson and U. Nyman, A numerical approach for non-linear moisture flow in porous materials with account to sorption hysteresis, Transp. Porous Med, vol.84, pp.735-754, 2010.

H. Janssen, A. Scheffler, G. Plagge, and R. , Experimental study of dynamic effects in moisture transfer in building materials, Int. J. Heat Mass Transf, vol.98, pp.141-149, 2016.

Q. Zengh and S. Xu, A two-parameter stretched exponential function for dynamic water vapor sorption of cement-based porous materials, Mater. Struct, vol.50, p.128, 2017.

N. Reuge, S. Moissette, M. Bart, F. Collet, and C. Lanos, Modèle de cinétique locale de sorption couplé au phénomène d'hystérésis pour les matériaux biosourcés. RUGC 2018, 36 ème Rencontres Universitaires de Génie Civil de l'AUGC, 2018.

F. Collet, S. Pretot, V. Colson, C. R. Gamble, N. Reuge et al., Hygric propeties of materials used for ISOBIO wall solution for new buildings. 3rd International Conference on Bio-Based Building Materials, 2019.

M. Van-genuchten and . Th, A closed-form equation for predicting the hydraulic conductivity of unsatured soils, Soil Science Society American Journal, vol.4, pp.892-898, 1980.

F. Collet and S. Pretot, Thermal conductivity of hemp concretes: Variation with formulation, density and water content, Building Materials, vol.65, pp.612-619, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01003739

H. M. Künzel, Simultaneous Heat and Moisture Transport in Building Components -One-and Two-Dimensional Calculation Using Simple Parameters, 1995.

Y. A. Oumeziane, Evaluation des performances hygrothermiques d'une paroi par simulation numérique : application aux parois en béton de chanvre, 2013.

B. Moujalled, Y. A. Ouméziane, S. Moissette, M. Bart, C. Lanos et al., Experimental and numerical evaluation of the hygrothermal performance of a hemp lime concrete building: A long term case study, Building and Environment, vol.136, pp.11-27, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01738378

A. Piot, T. Béjat, L. Bessette, and A. Jay, Hygrothermal behaviour of a hemp concrete wall: experimental and numerical study of coating, First International Conference on Bio-based Building Materials, 2015.

D. Lelievre, T. Colinart, and P. Glouannec, Hygrothermal behavior of bio-based building materials including hysteresis effects: Experimental and numerical analyses, Energy and Buildings, vol.84, pp.617-627, 2014.

T. Colinart, D. Lelievre, and P. Glouannec, Experimental and numerical analysis of the transient hygrothermalbehavior of multilayered hemp concrete wall, Energy and Buildings, vol.112, pp.1-11, 2016.

M. Rahim, A. D. Tran-le, O. Douzane, G. Promis, and T. Langlet, Numerical investigation of the effect of non-isotherm sorption characteristics on hygrothermal behavior of two bio-based building walls, Journal of Building Engineering, vol.7, pp.263-272, 2016.

T. Colinart, P. Glouannec, M. Bendouma, and P. Chauvelon, Temperature dependence of sorption isotherm of hygroscopic building materials. Part 2: Influence on hygrothermal behavior of hemp concrete, Energy and Buildings, vol.152, pp.42-51, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01697276

A. Fabbri and F. Mcgregor, Impact of the determination of the sorption-desorption curves on the prediction of the hemp concrete hygrothermal behaviour, Construction and Building Materials, vol.157, pp.108-116, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01770986

B. Seng, S. Lorente, and C. Magniont, Scale analysis of heat and moisture transfer through biobased materials -Application to hemp concrete, Energy and Buildings, vol.155, pp.546-558, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01847552

H. Schaube and H. Werner, Wärmeübergangskoeffizient unter natürlichen Klimabedingungen. IBP-Mitteilung, vol.13, 1986.

H. Erhorn and M. Szerman, Überprüfung der Wärme-und Feuchteübergangskoeffizienten in Außenwandecken von Wohnbauten, Gesundheitsingenieur, vol.113, pp.177-186, 1992.

, RT 2012 -Règles Th-S : Caractérisation du facteur de transmission solaire des parois du bâtiment -CSTB Ed, 2015.