Estimation of thermoelectric power generation by recovering waste heat from Biomass fired thermal oil heater

Abstract

This study reports estimation of the amount of electrical power produced by thermoelectric generator (TEG) placed between flue gas duct and fresh air duct of an industrial thermal oil heater. Plate fin heat sink on hot and cold side of the TEG module was inserted into the flue gas and fresh air duct respectively. The effect of various design parameters, flow parameters were investigated in order to maximize the electrical power generation. Then the best suited conditions were applied to new thermoelectric generator module based on recently developed thermoelectric materials. A Bi2Te3 based commercial module (HZ-2) produce 3.7W, where new module, based on p-type (Bi,Sb)2Te3 and n-type hot forged Bi2Te3 generate 4.4W, at the same operating condition, which is about 19% improvement in output electrical power compared to commercial module. Estimated annual electrical power generation from this proposed system could be around 181,209kWh. Thermal efficiency of the TEG modules based on recently developed thermoelectric materials could be enhanced up to 8.18%. The specifications of plate fin heat sinks as well as thermoelectric properties of the p-n materials of the system have substantial impact on the performance of TEG module.