Development of Analytical Model to Estimate the Effective Thermal Conductivity of Two-Phase Materials with Nano Particles Kumar A. P. Senthil*, Gopinathan R.**, Karthikeyan P.***, Janaki S.*, Muthukumar M.**** *Assistant Professor, Department of Mechanical Engineering, PSG College of Technology, Coimbatore, India **Research Scholar, Department of Mechanical Engineering, PSG College of Technology, Coimbatore, India ***Associate Professor, Department of Automobile Engineering, PSG College of Technology, Coimbatore, India ****Professor, Department of Mechanical Engineering, Nandha Engineering College, Erode, India Online published on 14 October, 2016. Abstract In this item, the geometry reliant on confrontation model is used to approximation the real thermal conductivity (ETC) of the two-phase resources with nanoparticles founded on the unit cell method. The equations are resulting based on isotherm method for two-dimensional spatially episodic average. The geometry of the intermediate is careful as a matrix of poignant and non-touching in-line tetragonal. The models are used to forecast the effective thermal conductivity of two-phase supplies with nano subdivisions. The actual thermal conductivity of two-phase substantial with nano subdivision is found and associated with many conformist models. Comparison of prophesied values of the untried results is also completed. Top Keywords ETC, Nanoparticles, Conductivity ratio, Unit-cell approach, Inclusions, Two-phase materials. Top |