Title :
Pyroelectric-Based Solar and Wind Energy Harvesting System
Author :
Krishnan, S. Harihara ; Ezhilarasi, D. ; Uma, G. ; Umapathy, M.
Author_Institution :
Dept. of Instrum. & Control Eng., Nat. Inst. of Technol., Tiruchirappalli, India
Abstract :
Inherent scarcity of thermal sources with a time varying temperature profile is the reason why the pyroelectric-based energy harvesting is not as prominent as its counterpart, thermoelectric generators, in the thermal energy harvesting domain. In this paper, a practical solution for generating thermal oscillations required for sustainable pyroelectric-based energy harvesting from the solar and wind energies, is presented. The main focus of the work is to modulate the concentrated solar radiation using a vertical axis wind turbine for producing higher rate of change of temperature on the pyroelectric material. The maximum energy and power density produced by the prototype device using PZT-5H as pyroelectric material are 6.927 mJ/cm3/cycle and 421.18 μW/cm3, respectively, and on average it can produce a power density of 304.78 μW/cm3, which concurs with the theoretical model.
Keywords :
energy harvesting; hydrogen; lead compounds; pyroelectric devices; pyroelectricity; solar energy concentrators; solar power stations; sunlight; sustainable development; wind power plants; wind turbines; PZT-H; concentrated solar radiation; power density; pyroelectric-based solar energy harvesting system; sustainable development; thermal energy harvesting domain; thermal oscillation generation; thermal sources scarcity; thermoelectric generator; time varying temperature profile; vertical axis wind turbine; wind energy harvesting system; Crystals; Density measurement; Lenses; Power system measurements; Temperature measurement; Wind turbines; Energy harvesting; pyroelectricity; solar energy; wind energy;
Journal_Title :
Sustainable Energy, IEEE Transactions on
DOI :
10.1109/TSTE.2013.2273980
