An Applied Comparison Study: Solar Energy vs. Thermoelectric Energy

Abstract: Thermoelectric generators (TEG) are devices that convert temperature differences into usable electricity. TEGs are made from thermoelectric modules which are solid-state integrated circuits that employ three established thermoelectric effects known as the Peltier, Seebeck and Thomson effects. TEGs require heat as an energy source and can generate power as long as there is a heat source such as gas or oil flame, stove, camp fire, industrial machinery, and furnace. Solar modules which convert light energy into u… Show more

“…Equations ( 8) through (10) can be used to determine other thermophysical properties such as; α is the thermal diffusivity, λ and ρ represent the thermal conductivity and density as different magnetic forces Gauss published in the literature properties [9,10,20] as a function of the properties outlined in the Table 1.…”

“…Where Q c is thermal heat defined by equation (10). Q h and P out represent the heat released to ambient and power output generated by the thermoelectric unit, respectively [13,20] .…”

“…Recently, Yildiz et al [10] compared solar panels with TEGs. Their study dealt with "different parameters such as efficiency, power generation capability and capacity, cost, size, potential consumer applications, and system installation complexity to generate power.…”

“…Their study dealt with "different parameters such as efficiency, power generation capability and capacity, cost, size, potential consumer applications, and system installation complexity to generate power. It has been reported by Yildiz et al [10] , that two separate laboratory environments were created to measure the power outputs and efficiencies. Both devices were tested at different locations due to different operating environmental conditions.…”

Modeling and Validation of PV Solar-Thermoelectric Generators Using Magnetized Nanofluids

“…Equations ( 8) through (10) can be used to determine other thermophysical properties such as; α is the thermal diffusivity, λ and ρ represent the thermal conductivity and density as different magnetic forces Gauss published in the literature properties [9,10,20] as a function of the properties outlined in the Table 1.…”

“…Where Q c is thermal heat defined by equation (10). Q h and P out represent the heat released to ambient and power output generated by the thermoelectric unit, respectively [13,20] .…”

“…Recently, Yildiz et al [10] compared solar panels with TEGs. Their study dealt with "different parameters such as efficiency, power generation capability and capacity, cost, size, potential consumer applications, and system installation complexity to generate power.…”

“…Their study dealt with "different parameters such as efficiency, power generation capability and capacity, cost, size, potential consumer applications, and system installation complexity to generate power. It has been reported by Yildiz et al [10] , that two separate laboratory environments were created to measure the power outputs and efficiencies. Both devices were tested at different locations due to different operating environmental conditions.…”

Modeling and Validation of PV Solar-Thermoelectric Generators Using Magnetized Nanofluids

A Multi-Year Thermoelectric Energy Harvesting Project for First-Year Engineering and Technology Students

CCHP Systems Analysis with Emphasis on Fuel Cells, Thermoelectricity and Power Converters