J. Adler-nissen, The Continuous Wok-a New Unit Operation in Industrial Food Processes, J. Food Process Eng, vol.25, pp.435-453, 2002.

J. M. Aguilera, Seligman lecture 2005 food product engineering: building the right structures, J. Sci. Food Agric, vol.86, pp.1147-1155, 2006.
DOI : 10.1002/jsfa.2468

J. Amann, A. Wilson, A. , and K. , Consumer Guide to Home Energy Savings-10th Edition, 2007.

W. Atwell, Wheat flour, 2001.

O. D. Baik, M. Marcotte, S. S. Sablani, C. , and F. , Thermal and Physical Properties of Bakery Products, Crit. Rev. Food Sci. Nutr, vol.41, pp.321-352, 2001.
DOI : 10.1080/20014091091832

J. Bailleul, V. Sobotka, D. Delaunay, J. , and Y. , Inverse algorithm for optimal processing of composite materials, Compos. Part Appl. Sci. Manuf, vol.34, pp.695-708, 2003.
DOI : 10.1016/s1359-835x(03)00141-6

J. P. Bardon, Bases physiques des conditions de contact thermique imparfait entre milieux en glissement relatif, Rev. Générale Therm, p.33, 1994.

J. Bardon, B. Cassagne, B. Fourcher, and C. Blanquet, Rapport DETB 7101: Bilan des principales recherches sur les resistances thermiques de contact, 1971.

J. V. Beck, Nonlinear estimation applied to the nonlinear inverse heat conduction problem, Int. J. Heat Mass Transf, vol.13, pp.703-716, 1969.
DOI : 10.1016/0017-9310(70)90044-x

A. Blaise, B. Bourouga, B. Abdulhay, and C. Dessain, Thermal contact resistance estimation and metallurgical transformation identification during the hot stamping, Appl. Therm. Eng, vol.61, pp.141-148, 2013.
DOI : 10.1016/j.applthermaleng.2013.07.041

S. Bories, A. Mojtabi, M. Prat, Q. , and M. , Transferts de chaleur dans les milieux poreux-Changement de phase, Tech. Ing, vol.8251, p.1, 2008.

C. J. Boukouvalas, M. K. Krokida, Z. B. Maroulis, and D. Marinos-kouris, Density and Porosity: Literature Data Compilation for Foodstuffs, Int. J. Food Prop, vol.9, pp.715-746, 2006.
DOI : 10.1080/10942910600575690

G. Campbell, E. Chiotellis, and G. M. Campbell, Proving of Bread Dough I: Modelling the Evolution of the Bubble Size Distribution, Food Bioprod. Process. Trans. Inst. Chem. Eng. Part C, vol.81, pp.194-206, 2003.

C. Kanyama, A. Boström-carlsson, and K. , Energy Use for Cooking and Other Stages in the Life Cycle of Food A study of wheat, spaghetti, pasta, barley, rice, potatoes, couscous and mashed potatoes, 2001.

M. Carvalho, G. Da, and M. Nogueira, Improvement of energy efficiency in glassmelting furnaces, cement kilns and baking ovens, Appl. Therm. Eng, vol.17, pp.921-933, 1997.
DOI : 10.1016/s1359-4311(97)00001-x

A. Castagnoni, Étude expérimentale et numérique d'un procédé de cuisson par contact direct Sylvain Marc, 1995.

J. Cernela, B. Heyd, and B. Broyart, Evaluation of heating performances and associated variability of domestic cooking appliances (oven-baking and pan-frying), Appl. Therm. Eng, vol.62, pp.758-765, 2014.
DOI : 10.1016/j.applthermaleng.2013.08.045

URL : https://hal.archives-ouvertes.fr/hal-01173813

J. Cernela, B. Heyd, S. Keller, J. L. Bailleul, M. N. Maillard et al., Experimental study of heat and mass transfer phenomena during the contact heating of solid food models, J. Food Eng, vol.146, pp.99-106, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01122982

J. Cernela, Etude expérimentale et modélisation des transferts de matière et d'énergie lors de la cuisson par contact, 2013.

Y. Champenois, Gélatinisation et rétrogradation de l'amidon dans le pain de mie, Sci. Aliments, vol.15, pp.593-614, 1995.

P. Chantrenne, R. , and M. , A microscopic thermal model for dry sliding contact, Int. J. Heat Mass Transf, vol.40, pp.1083-1094, 1997.
DOI : 10.1016/0017-9310(96)00152-4

URL : https://hal.archives-ouvertes.fr/hal-01663541

C. Chen, L. Wu, Y. , and Y. , Application of the inverse method to the estimation of heat flux and temperature on the external surface in laminar pipe flow, Appl. Therm. Eng, vol.26, pp.1714-1724, 2006.

A. Cimini and M. Moresi, Energy efficiency and carbon footprint of home pasta cooking appliances, J. Food Eng, vol.204, pp.8-17, 2017.

I. Cornejo, G. Cornejo, C. Ramírez, S. Almonacid, and R. Simpson, Inverse method for the simultaneous estimation of the thermophysical properties of foods at freezing temperatures, J. Food Eng, vol.191, pp.37-47, 2016.

J. Crank, The Mathematics of Diffusion, 1986.

M. Dal, P. Le-masson, C. , and M. , Estimation of fusion front in 2D axisymmetric welding using inverse method, Int. J. Therm. Sci, vol.55, pp.60-68, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00715170

A. K. Datta, Porous media approaches to studying simultaneous heat and mass transfer in food processes. I: Problem formulations, J. Food Eng, vol.80, pp.80-95, 2007.

A. K. Datta, Status of Physics-Based Models in the Design of Food Products, Processes, and Equipment, Compr. Rev. Food Sci. Food Saf, vol.7, pp.121-129, 2008.

K. Datwyler, C. Mcfadden, and J. R. , Acomparative analysis of performance characteristics of gas and electric cooktops, InProceedings 43rd Annu. Int. Appl. Tech. Conf, pp.485-496, 1995.

D. Ponte, F. Klarsfeld, and S. , Conductivité thermique des isolants. Tech. Ing. R2930 V2, 2002.

A. Degiovanni, Conductivité et diffusivité thermique des solides, 1994.

J. Denape and N. Laraqi, Aspect thermique du frottement: mise en evidence experimentale et elements de modelisation, Mec. Ind, vol.6, pp.563-579, 2000.

D. Djerroud, Modélisation markovienne du séchage continu par contact avec agitation, 2010.

J. P. Dory, F. Evin, and M. Piro, Chauffage par rayonnement infrarouge, vol.5930, 1999.

I. Douiri, Instrumentation d'un four pilote pour la cuisson de génoise, 2007.

G. Dour, M. Dargusch, D. , and C. , Recommendations and guidelines for the performance of accurate heat transfer measurements in rapid forming processes, Int. J. Heat Mass Transf, vol.49, pp.1773-1789, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01847812

G. Dusserre, F. Schmidt, G. Dour, and G. Bernhart, Thermo-mechanical stresses in cast steel dies during glass pressing process, J. Mater. Process. Technol, pp.484-491, 2005.
URL : https://hal.archives-ouvertes.fr/hal-01788416

C. E. Dutilh and K. J. Kramer, Energy Consumption in the Food Chain, AMBIO J. Hum. Environ, vol.29, pp.98-101, 2000.

M. Faiveley, L'eau et la conservation des aliments, 2012.

J. V. Fechner, Human factors in appliance energy-consumption, Proceedings of the IEEE Appliance Technical Conference, 1977.

A. H. Feyissa, K. V. Gernaey, S. Ashokkumar, and J. Adler-nissen, Modelling of coupled heat and mass transfer during a contact baking process, J. Food Eng, vol.106, pp.228-235, 2011.

P. Fito, M. Lemaguer, N. Betoret, and P. J. Fito, Advanced food process engineering to model real foods and processes: The "SAFES, methodology. J. Food Eng, vol.83, pp.173-185, 2007.

S. Furmaniak, A. P. Terzyk, R. Go?embiewski, P. A. Gauden, C. et al., , 2009.

, Searching the most optimal model of water sorption on foodstuffs in the whole range of relative humidity, Food Res. Int, vol.42, pp.1203-1214

F. Gabriel, J. Bardon, D. Guilbaud, and J. Rouffignac, Étude expérimentale de la résistance thermique de contact entre l'étain en cours de fusion et un creuset refroidi, Rev. Générale Therm, vol.36, pp.354-370, 1997.

G. D. Saravacos and Z. B. Maroulis, Transport Properties of Foods, 2001.

N. Gerber, M. R. Scheeder, and C. Wenk, The influence of cooking and fat trimming on the actual nutrient intake from meat, Meat Sci, vol.81, pp.148-154, 2009.

G. Greffier, Materiaux Pour Resistances Electriques. Tech. Ing. D2620 V1, 1996.

D. Grenier, T. Lucas, L. Ray, and D. , Measurement of local pressure during proving of bread dough sticks: Contribution of surface tension and dough viscosity to gas pressure in bubbles, J. Cereal Sci, vol.52, pp.373-377, 2010.

T. Gulati and A. K. Datta, Mechanistic understanding of case-hardening and texture development during drying of food materials, J. Food Eng, vol.166, pp.119-138, 2015.

T. R. Gupta, Individual heat transfer modes during contact baking of Indian unleavened flat bread (chapati) in a continuous oven, J. Food Eng, vol.47, pp.313-319, 2001.

R. C. Guy and H. R. Pithawala, Rheological studies of high ratio cake batters to investigate the mechanism of improvement of flours by chlorination or heat treatment, Int. J. Food Sci. Technol, vol.16, pp.153-166, 1981.

A. Hadiyanto, A. Straten, G. Van, R. M. Boom, D. C. Esveld et al., Quality prediction of bakery products in the initial phase of process design, Innov. Food Sci. Emerg. Technol, vol.8, pp.285-298, 2007.

T. J. Hager and R. Morawicki, Energy consumption during cooking in the residential sector of developed nations: A review, Food Policy, vol.40, pp.54-63, 2013.

A. Hamasaiid, G. Dour, T. Loulou, and M. S. Dargusch, A predictive model for the evolution of the thermal conductance at the casting-die interfaces in high pressure die casting, Int. J. Therm. Sci, vol.49, pp.365-372, 2010.
URL : https://hal.archives-ouvertes.fr/hal-01660869

N. Hamdami, J. Monteau, L. Bail, and A. , Thermophysical properties evolution of French partly baked bread during freezing, Food Res. Int, vol.37, pp.703-713, 2004.

F. Hassane-maina, F. Delay, A. , and P. , Estimating initial conditions for groundwater flow modeling using an adaptive inverse method, J. Hydrol, vol.552, pp.52-61, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02105904

A. A. Hassen, S. B. Kebede, and N. M. Wihib, Design and Manufacturing of Thermal Energy Based Injera Baking Glass Pan, Energy Procedia, vol.93, pp.154-159, 2016.

N. Hesso, C. Garnier, C. Loisel, S. Chevallier, B. Bouchet et al., Formulation effect study on batter and cake microstructure: Correlation with rheology and texture, Food Struct, vol.5, pp.31-41, 2015.

K. Ho and R. D. Pehlke, Metal-Mold interfacial heat transfer, Metall. Trans. B, vol.16, pp.585-594, 1985.

J. P. Holman and J. P. Holman, Heat Transfer, 1996.

J. Hou?ová and P. Topinka, Heat transfer during contact cooking of minced meat patties, ResearchGate, vol.4, pp.169-188, 1985.

J. R. Howell, M. P. Menguc, and R. Siegel, Thermal Radiation Heat Transfer, 2010.

C. Huang, J. , and Y. , An inverse problem in simultaneously measuring temperature-dependent thermal conductivity and heat capacity, Int. J. Heat Mass Transf, vol.38, pp.3433-3441, 1995.

, Worldwide Trends in Energy Use and Efficiency. Key Insights from IEA Indicator Analysis, IEA, 2008.

, Energy Efficiency, IEA, 2017.

, Étude expérimentale et numérique d'un procédé de cuisson par contact direct Sylvain Marc, 2017.

D. Incropera, B. , and L. , Fundamentals of Heat and Mass Transfer, 2007.

Y. Jarny, M. N. Ozisik, and J. P. Bardon, A general optimization method using adjoint equation for solving multidimensional inverse heat conduction, Int. J. Heat Mass Transf, vol.34, pp.2911-2919, 1991.
DOI : 10.1016/0017-9310(91)90251-9

V. Jury, Transferts couplés masse chaleur d'une matrice alvéolée : application à la décongélation-cuisson du pain précuit surgelé, 2007.

S. Kakaç, R. K. Shah, A. , and W. , Handbook of Single-phase Convective Heat Transfer, 1987.

N. Kalogeropoulos, F. N. Salta, A. Chiou, A. , and N. K. , Formation and distribution of oxidized fatty acids during deep-and pan-frying of potatoes, Eur. J. Lipid Sci. Technol, vol.109, pp.1111-1123, 2007.

K. Kanjanapongkul, Rice cooking using ohmic heating: Determination of electrical conductivity, water diffusion and cooking energy, J. Food Eng, vol.192, pp.1-10, 2017.
DOI : 10.1016/j.jfoodeng.2016.07.014

G. Karimi, M. Feilizadeh, and A. T. Najafabadi, Performance Analysis of Contact Baking of Flat Bread in an Indirect-Heating Oven, Dry. Technol, vol.30, pp.1014-1023, 2012.

M. Karkri, Y. Jarny, and P. Mousseau, Temperature profile within a plane channel of an experimental extrusion die under polymer processing conditions, Inverse Probl. Sci. Eng, vol.17, pp.489-509, 2009.

G. Kaza, Contribution à l'étude de la résistance thermique de contact et à sa modélisation à travers l'écrasement de l'interface tôle-outil dans la mise en forme à chaud de tôles d'acier, vol.3, 2010.

U. Kokolj, L. ?kerget, R. , and J. , A numerical model of the shortbread baking process in a forced convection oven, Appl. Therm. Eng, vol.111, pp.1304-1311, 2017.

A. Labban, P. Mousseau, J. , B. , D. et al., Optimization of thick rubber part curing cycles, Inverse Probl. Sci. Eng, vol.18, pp.313-340, 2010.

F. K. Laloui, R. , and M. , Contribution a l'etude du sechage du papier par contact et par convection, 1995.

N. Laraqi and A. Bairi, Theory of thermal resistance between solids with randomly sized and located contacts, Int. J. Heat Mass Transf, vol.45, pp.4175-4180, 2002.
DOI : 10.1016/s0017-9310(02)00127-8

N. Lassoued, Structure alvéolaire des produits céréaliers de cuisson en lien avec les propriétés rhéologiques et thermiques de la pâte : Effet de la composition, 2005.

L. Bideau, P. Ploteau, J. P. , G. , and P. , Heat flux estimation in an infrared experimental furnace using an inverse method, Appl. Therm. Eng, vol.29, pp.2977-2982, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00494501

D. Lecharpentier, Optimisation d'un procede de sechage. Problematiques liees au transfert de masse et de chaleur lors de l'utilisation de technologies rayonnantes micro-onde et infrarouge (Nantes), 2000.

X. Li-hua-zhan, S. Li, J. Hu, and . Cao, Modeling for thermal contact resistance of frictional interface under high temperature and high pressure, Nonferrous Met. Soc. China, vol.123, pp.490-493, 2002.

I. Lind, R. , and C. , Sorption isotherms of mixed minced meat, dough, and bread crust, J. Food Eng, vol.14, pp.303-315, 1991.

S. Louarn, Études expérimentales et simulation numérique d'un procédé thermique de séchage : application au traitement des boues, 2013.

T. Loulou, E. A. Artyukhin, and J. P. Bardon, Estimation of thermal contact resistance during the first stages of metal solidification process: I-experiment principle and modelisation, Int. J. Heat Mass Transf, vol.42, pp.2119-2127, 1999.

T. Loulou, R. Abou-khachfe, and J. Bardon, Estimation de la résistance thermique de contact durant la solidification du verre, Int. J. Therm. Sci, vol.38, pp.984-998, 1999.

A. C. Ma, Y. Li, D. , and H. L. , Optimized temperature uniformity and pressure loss in the baking finish oven of the enameled wire, Appl. Therm. Eng, vol.78, pp.670-681, 2015.

C. Y. Ma, L. M. Poste, and J. Holme, Effects of Chemical Modifications on the Physicochemical and Cake-Baking Properties of Egg White, Can. Inst. Food Sci. Technol. J, vol.19, pp.17-22, 1986.

Z. Malinowski, J. G. Lenard, and M. E. Davies, A study of the heat-transfer coefficient as a function of temperature and pressure, J. Mater. Process. Technol, vol.41, pp.125-142, 1994.

I. Mansouri, M. Newborough, P. , and D. , Energy consumption in UK households: Impact of domestic electrical appliances, Appl. Energy, vol.54, pp.211-285, 1996.

D. W. Marquardt, An Algorithm for Least-Squares Estimation of Nonlinear Parameters, J. Soc. Ind. Appl. Math, vol.11, pp.431-441, 1963.

H. Massard, O. Fudym, H. R. Orlande, and J. C. Batsale, Nodal predictive error model and Bayesian approach for thermal diffusivity and heat source mapping, Comptes Rendus Mécanique, vol.338, pp.434-449, 2010.
URL : https://hal.archives-ouvertes.fr/hal-01845769

H. Massé, É. Arquis, D. Delaunay, S. Quilliet, L. Bot et al., Heat transfer with mechanically driven thermal contact resistance at the polymer-mold interface in injection molding of polymers, Int. J. Heat Mass Transf, vol.47, pp.2015-2027, 2004.

P. Mayeli, M. Nili-ahmadabadi, M. Pirzadeh, and P. Rahmani, Determination of desired geometry by a novel extension of ball spine algorithm inverse method to conjugate heat transfer problems, Comput. Fluids, vol.154, pp.390-406, 2017.

A. Michaud, Séchage par contact sous vide avec agitation intermittente de poudres pharmaceutiques : étude expérimentale, modélisation et optimisation (Lyon 1), 2007.

B. B. Miki?, Thermal contact conductance; theoretical considerations, Int. J. Heat Mass Transf, vol.17, pp.205-214, 1974.

C. Moyne, Transferts couples chaleur-masse lors du séchage : prise en compte du mouvement de la phase gazeuse (Vandoeuvre-les-Nancy, INPL), 1987.

H. Ni and A. K. Datta, Heat and Moisture Transfer in Baking of Potato Slabs, Dry. Technol, vol.17, pp.2069-2092, 1999.

S. Niamsuwan, P. Kittisupakorn, and A. Suwatthikul, Enhancement of energy efficiency in a paint curing oven via CFD approach: Case study in an air-conditioning plant, Appl. Energy, vol.156, pp.465-477, 2015.

V. Nicolas, P. Salagnac, P. Glouannec, J. Ploteau, V. Jury et al., , 2014.

, Modelling heat and mass transfer in deformable porous media: Application to bread baking, J. Food Eng, vol.130, pp.23-35

V. Nicolas, Modélisation multiphysique des transferts de masse et de chaleur dans un milieu poreux déformable non saturé : application à la cuisson de pain, 2012.

J. Noh, K. Cha, S. Ahn, Y. , and S. , Prediction of time-varying heat flux along a hollow cylindrical tube wall using recursive input estimation algorithm and thermal resistance network method, Int. J. Heat Mass Transf, vol.97, pp.232-241, 2016.

W. Nshama, J. Jeswiet, and P. H. Oosthuizen, Evaluation of temperature and heat transfer conditions at the metal forming interface, J. Mater. Process. Technol, vol.45, pp.637-642, 1994.

D. Ou and G. S. Mittal, Double-sided pan-frying of unfrozen/frozen hamburgers for microbial safety using modelling and simulation, Food Res. Int, vol.39, pp.133-144, 2006.

A. Ousegui, C. Moresoli, M. Dostie, M. , and B. , Porous multiphase approach for baking process-Explicit formulation of evaporation rate, J. Food Eng, vol.100, pp.535-544, 2010.

N. Ozisik, Heat Conduction (USA: Jhon Wileu & Sons), 1993.

N. Özkan, I. Ho, F. , and M. , Combined ohmic and plate heating of hamburger patties: quality of cooked patties, J. Food Eng, vol.63, pp.141-145, 2004.

Z. Pan and R. P. Singh, Heating Surface Temperature and Contact-Heat Transfer Coefficient of A Clam-Shell Grill, LWT-Food Sci. Technol, vol.35, pp.348-354, 2002.

Z. Pan, R. P. Singh, and T. R. Rumsey, Predictive modeling of contact-heating process for cooking a hamburger patty, J. Food Eng, vol.46, pp.9-19, 2000.

D. Papasidero, S. Pierucci, and F. Manenti, Energy optimization of bread baking process undergoing quality constraints, Energy, vol.116, pp.1417-1422, 2016.

J. Paton, Z. Khatir, H. Thompson, N. Kapur, and V. Toropov, Thermal energy management in the bread baking industry using a system modelling approach, Appl. Therm. Eng, vol.53, pp.340-347, 2013.

M. Pinelli and A. Suman, Thermal and fluid dynamic analysis of an air-forced convection rotary bread-baking oven by means of an experimental and numerical approach, Appl. Therm. Eng, vol.117, pp.330-342, 2017.

J. P. Ploteau, V. Nicolas, G. , and P. , Numerical and experimental characterization of a batch bread baking oven, Appl. Therm. Eng, vol.48, pp.289-295, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00768239

J. P. Ploteau, P. Glouannec, V. Nicolas, M. , and A. , Experimental investigation of French bread baking under conventional conditions or short infrared emitters, Appl. Therm. Eng, vol.75, pp.461-467, 2015.

E. Purlis, Baking process design based on modelling and simulation: Towards optimization of bread baking, Food Control, vol.27, pp.45-52, 2012.

E. Purlis and V. O. Salvadori, Modelling the browning of bread during baking, Food Res. Int, vol.42, pp.865-870, 2009.

D. L. Pyle, Crumpet Structures: Experimental and Modelling Studies, Food Bioprod. Process, vol.83, pp.81-88, 2005.

M. S. Rahman, Food Properties Handbook, 1995.

R. Ramsaroop, P. , and P. , Determination of the heat transfer coefficient and thermal conductivity for coconut kernels using an inverse method with a developed hemispherical shell model, J. Food Eng, vol.110, pp.141-157, 2012.

J. N. Rasera, K. J. Daun, C. J. Shi, and M. Souza, Direct contact heating for hot forming die quenching, Appl. Therm. Eng, vol.98, pp.1165-1173, 2016.
DOI : 10.1115/imece2014-38373

M. Raynaud, Le problème inverse de conduction de la chaleur, 1997.

M. Raynaud and J. Bransier, A New Finite-Difference Method for the Nonlinear Inverse Heat Conduction Problem, Numer. Heat Transf, vol.9, pp.27-42, 1986.
DOI : 10.1080/10407788608913463

A. J. Rosenthal, Cooking: Domestic Techniques, Encyclopedia of Food and Health, pp.316-320, 2016.
DOI : 10.1016/b978-0-12-384947-2.00199-9

S. S. Sablani, S. Kasapis, and M. S. Rahman, Evaluating water activity and glass transition concepts for food stability, J. Food Eng, vol.78, pp.266-271, 2007.
DOI : 10.1016/j.jfoodeng.2005.09.025

J. F. Sacadura, Transferts thermiques, 2015.

E. K. Sahni, C. , and B. , Contact drying: A review of experimental and mechanistic modeling approaches, Int. J. Pharm, vol.434, pp.334-348, 2012.

M. Sakin-yilmazer, F. Kaymak-ertekin, and C. Ilicali, Modeling of simultaneous heat and mass transfer during convective oven ring cake baking, J. Food Eng, vol.111, pp.289-298, 2012.
DOI : 10.1016/j.jfoodeng.2012.02.020

F. Sanz-serrano, C. Sagues, A. H. Feyissa, J. Adler-nissen, L. et al., , 2017.

, Modeling of pancake frying with non-uniform heating source applied to domestic cookers, J. Food Eng, vol.195, pp.114-127

C. Scarisbrick, M. Newborough, and S. D. Probert, Improving the thermal performances of domestic electric ovens, Appl. Energy, vol.39, pp.263-300, 1991.

B. Shaughnessy and M. Newborough, Energy performance of a low-emissivity electrically heated oven, Appl. Therm. Eng, vol.20, pp.813-830, 2000.

Y. Shi, L. Zeng, W. Qian, G. , and Y. , A data processing method in the experiment of heat flux testing using inverse methods, Aerosp. Sci. Technol, vol.29, pp.74-80, 2013.

R. P. Singh, Heating and Cooling Processes for Foods, Handbook of Food Engineering, pp.397-426, 2006.

S. C. Somé, D. Delaunay, J. Faraj, J. Bailleul, N. Boyard et al., , 2015.

, Modeling of the thermal contact resistance time evolution at polymer-mold interface during injection molding: Effect of polymers' solidification, Appl. Therm. Eng, vol.84, pp.150-157

A. Sommier, H. Ben-yaghlane, and B. Broyart, Les transferts de chaleur et de matière. Application à une mousse solide : la génoise, Ind. Céréal, pp.12-18, 2002.

E. M. Sparrow, A. , and J. P. , Heat transfer coefficients and other performance parameters for variously positioned and supported thermal loads in ovens with/without waterfilled or empty blockages, Int. J. Heat Mass Transf, vol.45, pp.3597-3607, 2002.
DOI : 10.1016/s0017-9310(02)00064-9

J. Taine, F. Enguehard, and E. Iacona, Transferts thermiques : Introduction aux transferts d'énergie, 2014.

P. Therkelsen, E. Masanet, and E. Worrell, Energy efficiency opportunities in the U.S. commercial baking industry, J. Food Eng, vol.130, pp.14-22, 2014.

C. Thim, Domestic appliances, pp.458-461, 2009.

G. Trystram, Modelling of food and food processes, J. Food Eng, vol.110, pp.269-277, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01566198

M. A. Van-boekel, Kinetic Modeling of Food Quality: A Critical Review, Compr. Rev. Food Sci. Food Saf, vol.7, pp.144-158, 2008.

T. M. Verhallen and W. F. Van-raaij, Household Behavior and the Use of Natural Gas for Home Heating, J. Consum. Res, vol.8, pp.253-257, 1981.

M. J. Wagner, T. Lucas, D. Le-ray, and G. Trystram, Water transport in bread during baking, J. Food Eng, vol.78, pp.1167-1173, 2007.

P. Waide, B. Lebot, and M. Hinnells, Appliance energy standards in, Europe. Energy Build, vol.26, pp.45-67, 1997.

S. Whitaker, Simultaneous Heat, Mass, and Momentum Transfer in Porous Media: A Theory of Drying, 1977.

G. Wood and M. Newborough, Dynamic energy-consumption indicators for domestic appliances: environment, behaviour and design. Energy Build, vol.35, pp.821-841, 2003.

M. Yala, Étude et réalisation de microcapteurs de flux thermique en technologie silicium, vol.1, 2007.

M. Yovanovich, Four decades of research on thermal contact, gap, and joint resistances in microelectronics-Achievement Award, pp.xi-xi, 2004.

B. Yu, W. Yao, Q. Gao, H. Zhou, and C. Xu, A novel non-iterative inverse method for estimating boundary condition of the furnace inner wall, Int. Commun. Heat Mass Transf, vol.87, pp.91-97, 2017.

A. Zaknoune, Étude du comportement thermohydrique de matériaux "chanvre-chaux" lors de la phase de séchage : estimation par technique inverse des propriétés hydriques, 2011.

B. Zanoni, A. Schiraldi, and R. Simonetta, A naive model of starch gelatinization kinetics, J. Food Eng, vol.24, pp.25-33, 1995.

J. Zhang and A. K. Datta, Some Considerations in Modeling of Moisture Transport in Heating of Hygroscopic Materials, Dry. Technol, vol.22, 1983.

J. Zhang, A. K. Datta, and S. Mukherjee, Transport processes and large deformation during baking of bread, AIChE J, vol.51, pp.2569-2580, 2005.

K. Zhou, M. Slavin, H. Lutterodt, M. Whent, N. A. Eskin et al., Chapter 1Cereals and Legumes, Biochemistry of Foods, pp.3-48, 2013.

S. E. Zorrilla and R. P. Singh, Heat transfer in double-sided cooking of meat patties considering two-dimensional geometry and radial shrinkage, J. Food Eng, vol.57, pp.57-65, 2003.