A. Herez, M. Ramadan, B. Abdulhay, and M. Khaled, Short review on solar energy systems, AIP Conference Proceedings, 1758, 2016.

M. Ramadan, M. Khaled, H. S. Ramadan, and M. Becherif, Modeling and sizing of combined fuel cell-thermal solar system for energy generation, Int. J. Hydrogen Energy
URL : https://hal.archives-ouvertes.fr/hal-02380299

A. Herez, M. Khaled, R. Murr, A. Haddad, H. Elhage et al., Using geothermal energy for cooling -parametric study, Energy Procedia, vol.119, pp.783-791, 2017.

A. E. Mays, R. Ammar, M. Hawa, M. Abou-akroush, F. Hachem et al., Improving photovoltaic panel using finned plate of aluminum, Energy Procedia, vol.119, pp.812-817, 2017.

F. Hachem, B. Abdulhay, M. Ramadan, H. E. Hage, M. G. El-rab et al., Improving the performance of photovoltaic cells using pure and combined phase change materials -Experiments and transient energy balance, Renewable Energy, vol.107, pp.567-575, 2017.

A. E. Mays, R. Ammar, M. Hawa, M. Abou-akroush, F. Hachem et al., Using phase change material in under floor heating, Energy Procedia, vol.119, pp.806-811, 2017.

M. Khaled, M. Ramadan, and H. E. Hage, Innovative approach of determining the overall heat transfer coefficient of heat exchangers -Application to cross-flow water-air types, Appl. Therm. Eng, vol.99, issue.25, pp.1086-1092, 2016.

H. Jaber, M. Khaled, T. Lemenand, R. Murr, J. Faraj et al., Triple domestic heat recovery system thermal modeling and parametric study, Proceedings of SEEP2017, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02525546

H. Jaber, M. Khaled, T. Lemenand, J. Faraj, H. Bazzi et al., Effect of exhaust gases temperature on the performance of a hybrid heat recovery system, Energy Procedia, vol.119, pp.775-782, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02525560

H. Jaber, M. Khaled, T. Lemenand, and M. Ramadan, Short review on heat recovery from exhaust gas, AIP Conference Proceedings, 1758, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02525530

M. Terhan and K. Comakli, Design and economic analysis of a flue gas condenser to recover latent heat from exhaust flue gas, Appl. Therm. Eng, vol.100, pp.1007-1015, 2016.

M. Wei, X. Zhao, L. Fu, and S. Zhang, Performance study and application of new coal-fired boiler flue gas heat recovery system, Appl. Energy, vol.188, pp.121-129, 2017.

M. Sharma and O. Singh, Exergy analysis of dual pressure HRSG for different dead states and varying steam generation states in gas/steam combined cycle power plant, Appl. Therm. Eng, vol.93, pp.614-622, 2016.

A. Bassily, Modeling, analysis, and modifications of different GT cooling techniques for modern commercial combined cycle power plants with reducing the irreversibility of the HRSG, Appl. Therm. Eng, vol.53, pp.131-146, 2013.

K. Chae and X. Ren, Flexible and stable heat energy recovery from municipal wastewater treatment plants using a fixed-inverter hybrid heat pump system, Appl. Energy, vol.179, pp.565-574, 2016.

M. Wei, W. Yuan, Z. Song, L. Fu, and S. Zhang, Simulation of a heat pump system for total heat recovery from flue gas, Appl. Therm. Eng, vol.86, pp.326-332, 2015.

V. Karamarkovic, M. Marasevic, R. Karamarkovic, and M. Karamarkovic, Recuperator for waste heat recovery from rotary kilns, Appl. Therm. Eng, vol.54, pp.470-480, 2013.

A. Mezquita, J. Boix, E. Monfort, and G. Mallol, Energy saving in ceramic tile kilns Cooling gas heat recover, Appl. Therm. Eng, vol.65, pp.102-110, 2014.

M. Khaled, M. Ramadan, and H. E. Hage, Parametric analysis of heat recovery from exhaust gases of generators, Energy Procedia, vol.75, pp.3295-3300, 2015.

B. Fu, Y. Lee, and J. Hsieh, Design, construction, and preliminary results of a 250-kW organic Rankine cycle system, Applied Thermal Engineering, vol.80, pp.339-346, 2015.

S. Bari and S. Hossain, Waste heat recovery from a diesel engine using shell and tube heat exchanger, Appl. Therm. Eng, vol.61, pp.355-363, 2013.

E. Wang, Z. Yu, H. Zhang, and F. Yang, A regenerative supercritical-subcritical dualloop organic Rankine cycle system for energy recovery from the waste heat of internal combustion engines, Appl. Energy, vol.190, pp.574-590, 2017.

D. Jung, S. Park, and K. Min, Selection of appropriate working fluids for Rankine cycles used for recovery of heat from exhaust gases of ICE in heavy-duty series hybrid electric vehicles, Appl. Therm. Eng, vol.81, pp.338-345, 2015.

Y. Lu, Y. Wang, C. Dong, L. Wang, and A. Roskilly, Design and assessment on a novel integrated system for power and refrigeration using waste heat from diesel engine, Appl. Therm. Eng, vol.91, pp.591-599, 2015.

A. Boretti, Recovery of exhaust and coolant heat with R245fa organic Rankine cycles in a hybrid passenger car with a naturally aspirated gasoline engine, Appl. Therm. Eng, vol.36, pp.73-77, 2012.

R. Morgan, G. Dong, A. Panesar, and M. , A comparative study between a Rankine cycle and a novel intra-cycle based waste heat recovery concepts applied to an internal combustion engine, Appl. Energy, vol.174, pp.108-117, 2016.

T. Sung and K. Kim, Thermodynamic analysis of a novel dual-loop organic Rankine cycle for engine waste heat and LNG cold, Appl. Therm. Eng, vol.100, pp.1031-1041, 2016.

D. Lee, J. Park, M. Ryu, and J. Park, Development of a highly efficient low-emission diesel engine-powered co-generation system and its optimization using Taguchi method, Appl. Therm. Eng, vol.50, pp.491-495, 2013.

M. Khaled and M. Ramadan, Study of the thermal behavior of multi concentric tube tank in heat recovery from chimney -Analysis and optimization, Heat Transfer Eng. J, vol.8, pp.1-11, 2017.

M. Khaled, M. Ramadan, K. Chahine, and A. Assi, Prototype implementation and experimental analysis of water heating using recovered waste heat of chimneys, Case Stud, Therm. Eng, vol.5, pp.127-133, 2015.

M. Ramadan, M. Khaled, and H. E. Hage, Using speed bump for power generation -Modeling and experimental study, Energy Procedia, vol.75, pp.867-872, 2015.

X. Zhang, S. Yu, M. Yu, and Y. Lin, Experimental research on condensing heat recovery using phase change material, Appl. Therm. Eng, vol.31, pp.3736-3740, 2011.

Z. Song, J. Chen-b, and L. Yang, Heat transfer enhancement in tubular heater of Stirling engine for waste heat recovery from flue gas using steel wool, Appl. Therm. Eng, vol.87, pp.499-504, 2015.

S. Niamsuwan, P. Kittisupakorn, and I. Mujtaba, A newly designed economizer to improve waste heat recovery A case study in a pasteurized milk plant, Appl. Therm. Eng, vol.60, pp.188-199, 2013.

R. Soltani, I. Dincer, and M. Rosen, Thermodynamic analysis of a novel multigeneration energy system based on heat recovery from a biomass CHP cycle, Appl. Therm. Eng, vol.89, pp.90-100, 2015.

M. Khaled and M. Ramadan, Heating fresh air by hot exhaust air of HVAC systems, Case Stud. Therm. Eng, vol.8, pp.398-402, 2016.

M. Ramadan, M. G. El-rab, and M. Khaled, Parametric analysis of air-water heat recovery concept applied to HVAC systems: Effect of mass flow rates, Case Stud, Therm. Eng, vol.6, pp.61-68, 2015.

M. Ramadan, T. Lemenand, and M. Khaled, Recovering heat from hot drain water-Experimental evaluation, parametric analysis and new calculation procedure, Energy Buildings, vol.128, pp.575-585, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02525529

C. Naldi, M. Dongellini, and G. Morini, Summer performances of reversible air-towater heat pumps with heat recovery for domestic hot water production, Energy Procedia, vol.78, pp.1117-1122, 2015.

L. Liu, L. Fu, and Y. Jiang, Application of an exhaust heat recovery system for domestic hot water, Energy, vol.35, pp.1476-1481, 2010.

N. Kumar, G. Mohan, and A. Martin, Performance analysis of solar cogeneration system with different integration strategies for potable water and domestic hot water production, Appl. Energy, vol.170, pp.466-475, 2016.

A. Ibáñez, J. Linares, M. Cledera, and B. Moratilla, Sizing of thermal energy storage devices for micro-cogeneration systems for the supply of domestic hot water, Sustain. Energy Technol. Assessments, vol.5, pp.37-43, 2014.

S. Hossain and S. Bari, Waste heat recovery from exhaust of a diesel generator set using organic fluids, 10th International Conference on Mechanical Engineering, ICME.Procedia Engineering, vol.90, pp.439-444, 2014.

S. Prabu and M. Asokan, A study of waste heat recovery from diesel engine exhaust using phase change material, Int. J. ChemTech Res, vol.8, pp.711-717, 2015.

Y. Najjar, A. Abubaker, and A. El-khalil, Novel inlet air cooling with gas turbine engines using cascaded waste-heat recovery for green sustainable energy, Energy, vol.93, pp.770-785, 2015.

H. Gao, G. Huang, H. Li, Z. Qu, and Y. Zhang, Development of stove-powered thermoelectric generators A review, Appl. Therm. Eng, vol.96, pp.297-310, 2016.

A. Montecucco, J. Siviter, and A. R. Knox, Combined heat and power system for stoves with thermoelectric generators, Appl. Energy, vol.185, pp.1336-1342, 2017.

W. He, G. Zhang, X. Zhang, J. Ji, G. Li et al., Recent development and application of thermoelectric generator and cooler, Appl. Energy, vol.143, pp.1-25, 2015.

J. Wang, J. Y. Wu, and C. Zheng, Simulation and evaluation of a CCHP system with exhaust gas deep-recovery and thermoelectric generator, Energy Convers. Manage, vol.86, pp.992-1000, 2014.

T. Ma, X. Lu, J. Pandit, S. Ekkad, S. Huxtable et al., Numerical study on thermoelectric-hydraulic performance of a thermoelectric power generator with a plate-fin heat exchanger with longitudinal vortex generators, Appl. Energy, vol.185, issue.2, pp.1343-1354, 2017.

X. Sun, X. Liang, G. Shu, H. Tian, H. Wei et al., Comparison of the two-stage and traditional single-stage thermoelectric generator in recovering the waste heat of the high temperature exhaust gas of internal combustion engine, Energy, vol.77, pp.489-498, 2014.

J. Jang and Y. Tsai, Optimization of thermoelectric generator module spacing and spreader thickness used in a waste heat recovery system, Appl. Therm. Engineering, vol.51, pp.677-689, 2013.

C. Lu, S. Wang, C. Chen, and Y. Li, Effects of heat enhancement for exhaust heat exchanger on the performance of thermoelectric generator, Applied Thermal Eng, vol.89, pp.270-279, 2015.

E. Navarro-peris, J. Corberan, and Z. Ancik, Evaluation of the potential recovery of compressor heat losses to enhance the efficiency of refrigeration systems by means of thermoelectric generation, Appl. Therm. Eng, vol.89, pp.755-762, 2015.

H. Ma, C. Lin, H. Wu, C. Peng, and C. Hsu, Waste heat recovery using a thermoelectric power generation system in a biomass gasifier, Appl. Therm. Eng, vol.88, pp.274-279, 2015.

X. Zheng, Y. Yan, and K. Simpson, A potential candidate for the sustainable and reliable domestic energy generation-Thermoelectric cogeneration system, Appl. Therm. Eng, vol.53, issue.2, pp.305-311, 2013.

X. Zheng, C. Liu, R. Boukhanouf, Y. Yan, and W. Li, Experimental study of a domestic thermoelectric cogeneration system, Appl. Therm. Eng, vol.62, issue.1, pp.69-79, 2014.

K. Alanne, T. Laukkanen, K. Saari, and J. Jokisalo, Analysis of a wooden pellet-fueled domestic thermoelectric cogeneration system, Appl. Therm. Eng, vol.63, issue.1, pp.1-10, 2014.

S. Yu, Q. Du, H. Diao, G. Shu, and K. Jiao, Start-up modes of thermoelectric generator based on vehicle exhaust waste heat recovery, Appl. Energy, vol.138, pp.276-290, 2015.

F. P. Incorpera and D. P. Dewitt, Fundamentals of heat and mass transfer, 2007.

. Tecteg, Manufacturer of thermoelectric modules, 2016.