Abstract
This paper estimates the effective stagnant thermal conductivity of a spherical packed bed using an experimentally validated modified collocated unit cell model. The study focused on the effect of primary and secondary parameters on effective thermal conductivity. The effects of concentration of the spherical packed bed, thermal conductivity ratio, contact conductance resulting from particle-to-particle contact, and moderate temperature are studied in detail. Analytical expressions are derived for the in-line contacting three-dimensional solid cubic arrays by adopting the unit-cell-based thermal resistance method for determining the effective stagnant thermal conductivity. The effective thermal conductivity of different heterogeneous packed beds with solid-fluid materials possessing conductivity ratio in the range of 1–1000 and concentrations in the range of 0–1 are predicted for various temperatures at constant pressure regimes using the developed model. Furthermore, the developed model is used to estimate the effective stagnant thermal conductivities of packed beds filled with glass and ceramic bead materials, which are compared with values measured using the steady-state square guarded hot plate apparatus over the moderate temperature range of 323–673 K. The values for both uniform-sized glass and ceramic beads are found to be within ±11.26% and ±13.35% of each other.
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Notes on contributors
Sreeramulu Jayachandran
Sreeramulu Jayachandran is a Ph.D. research scholar in the Heat Transfer and Thermal Power Laboratory, Indian Institute of Technology Madras, Chennai, India. He received his master’s degree from Annamalai University, Chidambaram, India. Currently, he is working on effective thermal conductivity estimation of two-phase materials and thermal energy storage.
Kalvala Srinivas Reddy
Kalvala Srinivas Reddy is Professor of Mechanical Engineering at Indian Institute of Technology (IIT) Madras, Chennai. He is specialist in renewable energy technologies, concentrating solar thermal and PV systems, energy efficiency and environment. Presently, he is also honorary professor at University of Exeter, U.K., and Adjunct Professor, CEERI-CSIR, Chennai. He has authored more than 200 research papers in international journals and conferences. He coauthored a book on “Sustainable Energy and the Environment: A Clean Technology Approach” Published by Springer. He has executed several research projects related to solar energy and energy & environment sponsored by various national and international agencies. He is actively involved in development of Concentrating Solar Power technologies in India. He is associated with several industries on power generation, process heat, energy efficiency & conservation, and characterization of engineering materials. He has received several awards such as WSSET Innovation award, and Shri J.C. Bose Patent award in recognition of his research work.