Modeling large temperature swings in heat regenerators using orthogonal collocation

• Main Author: Kokron, Carlos J.
• Other Authors: Levien, Keith L.
• Language: en_US
• Published: 2013
• Subjects: Heat regenerators > Mathematical models; Orthogonal polynomials; Collocation methods
• Online Access: http://hdl.handle.net/1957/36585

This thesis examines the transient performance of packed bed heat regenerators when very large temperature differences are involved. The effects of gas temperature on the key gas physical properties of velocity, density and heat capacity were studied via simulation. Three models were developed and compared. The first model (HRKDV) considers heat balances for both solid and gas phases, the second (HRVDV) considers mass balances in addition to the heat balances set up in the first model and the third one (HRASO) considers that the only significant rate of accumulation term is that of the energy of the solid phase. The governing partial differential equations were solved by the method of lines with the spatial discretization accomplished by the method of orthogonal collocation. The findings of this work reveal that whereas the effects of large temperature changes on the gas velocity and density are completely negligible, the effects of temperature on the gas heat capacity must be considered "continuously" when large temperature swings occur. Considering the heat capacity as a constant, even at an average value, leads to significant errors in temperature profiles. === Graduation date: 1992