References
- Fahrenbruch, A.; Bube, R. Fundamentals of Solar Cells: Photovoltaic Solar Energy Conversion; Academic Press: New York, 1983.
- Urbanetz, J.; Braun, P.; Rüther, R. Power quality analysis of grid-connected solar photovoltaic generators in Brazil. Energy Conversion and Management 2012, 64, 8–14.
- Mills, D. Advances in solar thermal electricity technology. Solar Energy 2004, 76(1–3), 19–31.
- Sánchez-Orgaz, S.; Pedemonte, M.; Ezzatti, P.; Curto-Risso, P.L.; Medina, A.; Calvo Hernández, A. Multi-objective optimization of a multi-step solar-driven Brayton plant. Energy Conversion and Management 2015, 99, 346–358.
- Barbee, J. Could This be the World’s Most Efficient Solar Electricity System? Available at: http:// https://www.theguardian.com/environment/2015/may/13/could-this-be-the-worlds-most-efficient-solar-electricity-system, 2015 (access August 2, 2016).
- Hu, E.; Yang, Y.; Nishimura, A.; Yilmaz, F.; Kouzani, A. Solar thermal aided power generation. Applied Energy 2010, 87(9), 2881–2885.
- Yang, Y.; Yan, Q.; Zhai, R.; Kouzani, A.; Hu, E. An efficient way to use medium-or-low temperature solar heat for power generation – integration into conventional power plant. Applied Thermal Engineering 2011, 31(2–3), 157–162.
- Thielemann, T.; Schmidt, S.; Peter Gerling, J. Lignite and hard coal: Energy suppliers for world needs until the year 2100—An outlook. International Journal of Coal Geology 2007, 72(1), 1–14.
- Liu, M.; Yan, J.; Chong, D.; Liu, J.; Wang, J. Thermodynamic analysis of pre-drying methods for pre-dried lignite-fired power plant. Energy 2013, 49, 107–118.
- Osman, H.; Jangam, S.V.; Lease, J.D.; Mujumdar, A.S. Drying of low-rank coal (LRC)—a review of recent patents and innovations. Drying Technology 2011, 29(15), 1763–1783.
- Liu, M.; Yan, J.; Bai, B.; Chong, D.; Guo, X.; Xiao, F. Theoretical study and case analysis for a predried lignite-fired power system. Drying Technology 2011, 29(10), 1219–1229.
- Kakaras, E.; Ahladas, P.; Syrmopoulos, S. Computer simulation studies for the integration of an external dryer into a Greek lignite-fired power plant. Fuel 2002, 81(5), 583–593.
- Liu, M.; Qin, Y.; Yan, H.; Han, X.; Chong, D. Energy and water conservation at lignite-fired power plants using drying and water recovery technologies. Energy Conversion and Management 2015, 105, 118–126.
- Liu, M.; Wu, D.; Xiao, F.; Yan, J. A novel lignite-fired power plant integrated with a vacuum dryer: System design and thermodynamic analysis. Energy 2015, 82, 968–975.
- Si, C.D.; Wu, J.J.; Wang, Y.; Shang, X.L.; Zhang, Y.X.; Liu, G.J. Experimental study on three-stage microwave-assisted fluidized bed drying of Shengli lump lignite. Drying Technology 2016, 34(6), 685–691.
- Stokie, D.; Woo, M.W.; Bhattacharya, S. Attrition of Victorian brown coal during drying in a fluidized bed. Drying Technology 2016, 34(7), 793–801.
- Shang, X.L.; Si, C.D.; Wu, J.J.; Miao, Z.Y.; Zhang, Y.X.; Wang, Y.; Wang, B.B.; Hou, K. Comparison of drying methods on physical and chemical properties of Shengli lignite. Drying Technology 2016, 34(4), 454–461.
- Shao, L.M.; Wang, T.F.; Zhao, L.; Wang, G.Z.; Lu, F.; He, P.J. The effect of adding straw on natural solar sludge drying. Drying Technology 2015, 33(4SI), 414–419.
- Huang, T.; Chung, C.; Wang, H.; Law, C.; Chen, H. Formation of 6-Shogaol of ginger oil under different drying conditions. Drying Technology 2011, 29(16SI), 1884–1889.
- Bala, B.K.; Hoque, M.A.; Hossain, M.A.; Uddin, M.B. Drying characteristics of asparagus roots (Asparagus racemosus Wild.). Drying Technology 2010, 28(PII 9217114484), 533–541.
- Yassen, T.A.; Al-Kayiem, H.H. Solar-biomass hybrid dryer enhanced by the Co-Gen technique. Drying Technology 2016, 34(3), 287–295.
- Hasan, M.; Langrish, T.A.G. Embodied energy and carbon analysis of solar kilns for wood drying. Drying Technology 2015, 33(8), 973–985.
- Salas, C.; Moya, R. Kiln-, solar-, and air-drying behavior of lumber of Tectona grandis and Gmelina arborea from fast-grown plantations: Moisture content, wood color, and drying defects. Drying Technology 2015, 33(12), 1522.
- Fudholi, A.; Ruslan, M.H.; Othman, M.Y.; Saadatian, O.; Zaharin, A.; Sopian, K. Investigation of medical herbs moisture in solar drying. Presented at the 1st WSEAS/IASME International Conference on ENERGY and Environment Technologies and Equipment (EEETE’12), Zlin, Czech Republic, September 20–22, 2012.
- Čiplienė, A.; Novošinskas, H.; Raila, A.; Zvicevičius, E. Usage of hybrid solar collector system in drying technologies of medical plants. Energy Conversion and Management 2015, 93, 399–405.
- Bennamoun, L. Integration of photovoltaic cells in solar drying systems. Drying Technology 2013, 31(11), 1284–1296.
- Ceylan, I.; Kaya, M.; Gurel, A.E.; Ergun, A. Energy analysis of a new design of a photovoltaic cell-assisted solar dryer. Drying Technology 2013, 31(9), 1077–1082.
- Mortezapour, H.; Ghobadian, B.; Minaei, S.; Khoshtaghaza, M.H. Saffron drying with a heat pump-assisted hybrid photovoltaic-thermal solar dryer. Drying Technology 2012, 30(6), 560–566.
- Farkas, I. Integrated use of solar energy for crop drying. Drying Technology 2013, 31(8SI), 866–871.
- Sami, S.; Rahimi, A.; Etesami, N. Dynamic modeling and a parametric study of an indirect solar cabinet dryer. Drying Technology 2011, 29(7), 825–835.
- Kreider, J.F. Second-law analysis of solar-thermal processes. International Journal of Energy Research 1979, 3(4), 325–331.
- Liu, L.; Wang, Z.; Zhang, H.; Xue, Y. Solar energy development in China—A review. Renewable and Sustainable Energy Reviews 2010, 14(1), 301–311.
- Bejan, A. Extraction of exergy from solar collectors under time-varying conditions. International Journal of Heat and Fluid Flow 1982, 3(2), 67–72.
- Peng, S.; Wang, Z.; Hong, H.; Xu, D.; Jin, H. Exergy evaluation of a typical 330 MW solar-hybrid coal-fired power plant in China. Energy Conversion and Management 2014, 85, 848–855.
- Mahfuz, M.H.; Kamyar, A.; Afshar, O.; Sarraf, M.; Anisur, M.R.; Kibria, M.A.; Saidur, R.; Metselaar, I.H.S.C. Exergetic analysis of a solar thermal power system with PCM storage. Energy Conversion and Management 2014, 78, 486–492.
- Lorente, S.; Bejan, A.; Al-Hinai, K.; Sahin, A.Z.; Yilbas, B.S. Constructal design of distributed energy systems: Solar power and water desalination. International Journal of Heat and Mass Transfer 2012, 55(9), 2213–2218.
- Atsonios, K.; Violidakis, I.; Sfetsioris, K.; Rakopoulos, D.C.; Grammelis, P.; Kakaras, E. Pre-dried lignite technology implementation in partial load/low demand cases for flexibility enhancement. Energy 2016, 96, 427–436.
- Choudhury, D.; Sarkar, A.; Ram, L.C. An autopsy of spontaneous combustion of lignite. International Journal of Coal Preparation and Utilization 2016, 36(2), 109–123.
- Moran, M.J. Availability Analysis: A Guide to Efficient Energy Use; Prentice Hall: Englewood Cliffs, NJ, 1982.
- Bongers, G.D.; Jackson, W.R.; Woskoboenko, F. Pressurised steam drying of Australian low-rank coals: Part 1. Equilibrium moisture contents. Fuel Processing Technology 1998, 57(1), 41–54.
- Pusat, S.; Akkoyunlu, M.T.; Erdem, H.H.; Dağdaş, A. Drying kinetics of coarse lignite particles in a fixed bed. Fuel Processing Technology 2015, 130(9), 208–213.
- Tyagi, S.K.; Wang, S.; Singhal, M.K.; Kaushik, S.C.; Park, S.R. Exergy analysis and parametric study of concentrating type solar collectors. International Journal of Thermal Sciences 2007, 46(12), 1304–1310.
- Larrouturou, F.; Caliot, C.; Flamant, G. Influence of receiver surface spectral selectivity on the solar-to-electric efficiency of a solar tower power plant. Solar Energy 2016, 130, 60–73.
- Khan, J.; Arsalan, M.H. Solar power technologies for sustainable electricity generation – A review. Renewable and Sustainable Energy Reviews 2016, 55, 414–425.
- Liu, M.; Yan, J.; Chong, D.; Liu, J.; Wang, J. Thermodynamic analysis of pre-drying methods for pre-dried lignite-fired power plant. Energy 2013, 49, 107–118.