A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The Development of Thermoelectric-Solar Hybrid Energy Harvester System
Demand growth of power electric increases rapidly today and it is needed to activate the various of electronic equipement. Electric energy today very easily to explore with discovered various of method in generate of electricity through using water energy, wind energy, nuclear energy and solar energy. There were also have power plant likes turbine power plant and diesel power plant using of fossil. Studied of solar cell has been explored since 1839, but electricity that supplied might be very expensive and shortage in source due to dependence of electricity are very high in daily activity. Thus, to generate electricity we must use the source that easily to get and based on renewable energy resources. Solar energy is the one of the renewable energy (RE). RE stands for energy sources that can be replaced within a short period of time after it has been used. Photovoltaic (PV) and themoelectric ganerator (TEG) are the devices that can convert solar energy to electric energy. Both PV and TEG devices has been selected to form hybrid power systems based on usage of RE sources. This system is called as thermoelectric-solar hybrid energy. The boost DC-DC converter with Maximum Power Point Tracking (MPPT) technique will be used to produce the maximum output voltage from the hybrid system. The functions and working principle has been discussed in this paper.
The Development of Thermoelectric-Solar Hybrid Energy Harvester System
Demand growth of power electric increases rapidly today and it is needed to activate the various of electronic equipement. Electric energy today very easily to explore with discovered various of method in generate of electricity through using water energy, wind energy, nuclear energy and solar energy. There were also have power plant likes turbine power plant and diesel power plant using of fossil. Studied of solar cell has been explored since 1839, but electricity that supplied might be very expensive and shortage in source due to dependence of electricity are very high in daily activity. Thus, to generate electricity we must use the source that easily to get and based on renewable energy resources. Solar energy is the one of the renewable energy (RE). RE stands for energy sources that can be replaced within a short period of time after it has been used. Photovoltaic (PV) and themoelectric ganerator (TEG) are the devices that can convert solar energy to electric energy. Both PV and TEG devices has been selected to form hybrid power systems based on usage of RE sources. This system is called as thermoelectric-solar hybrid energy. The boost DC-DC converter with Maximum Power Point Tracking (MPPT) technique will be used to produce the maximum output voltage from the hybrid system. The functions and working principle has been discussed in this paper.
The Development of Thermoelectric-Solar Hybrid Energy Harvester System
Muhammad Izzam Izmawie Yusoff (author) / Ramizi Mohamed (author) / Ahmad Asrul Ibrahim (author)
2019-07-31
Conference paper
Electronic Resource
English
DDC:
690
Piezoelectric energy harvester based on bi-stable hybrid symmetric laminate
| British Library Online Contents | 2015
Piezoelectric energy harvester based on bi-stable hybrid symmetric laminate
| British Library Online Contents | 2015