References
- D. Pathak, R. K. Bedi, D. Kaur: ‘Characterization of AgInSe2 films deposited by hot-wall vacuum evaporation method’, Mater. Manuf. Proc., 2010, 25, (9), 1012–1017.
- D. Pathak, T. Wagnera, J. Šubrt, J. Kupcikb: ‘Characterization of mechanically synthesized AgInSe2 nanostructures’, Can J Phys., 2014, 92, (7/8), 789–796.
- S. P. Wu, B. Li, P. Pan, et al.: ‘Simulation study of heat energy potential of asphalt solar collectors’, Mater. Res. Innov., 2014, 18, (s2), 436–439.
- V. Bijsterveld, W. T. Houben and A. A. A. Molenaar: ‘Using pavement as solar collector: effect on pavement temperature and structural response’, Transp. Res. Rec., 2001, 1778, 140–148.
- M. Loomans, H. Oversloot, et al.: ‘Design tool for the thermal energy potential of asphalt pavements’, Proc. 8th IBPSA Conf., Eindhoven, Netherlands, August 2003, IBPSA: 745–752.
- B. M. Rajib, B. L. Chen: ‘Capturing solar energy from asphalt pavement’, Proc. Int. ISAP. Symp. On ‘Asphalt pavements and environment’, Zuich, Switzerland, August 2008, ISAP, 161–172.
- Q. Gao, Y. Huang, M. Li: ‘Experimental study of slab solar collection on the hydronic system of road’, Sol. Energy., 2010, 84, 2096–2102.
- S. P. Wu, M. Y. Chen et al.: ‘Laboratory investigation into thermal response of asphalt pavements as solar collector by application of small-scale slabs’, Appl. Therm. Eng., 2011, 31, (10), 1582–1587.
- F. P. Incropera, D. P. DeWitt, T. L. Bergman. ‘Fundamentals of heat and mass transfer’, 6th edn, 2007, New York: John Wiley & Sons.
- G. A. Huber: ‘Weather database for the Superpave Mix Design System’, Report SHRP-A-648A, Washington, DC, USA: National Research Council; 1994.