Heat transfer enhancement in a channel with porous baffles

Ko, Kang-Hoon

17 February 2005

An experimental and numerical investigation of heat transfer enhancement in a three dimensional channel using wall mounted porous baffles was conducted. The module average heat transfer coefficients were measured in a uniformly heated rectangular channel with staggered positioned porous baffles. A numerical procedure was implemented, in conjunction with a commercially available Navier-Stokes solver, to model the turbulent flow in porous media. The Brinkman-Forchheimer-Extended Darcy model was used for modeling fluid flow through the porous baffles. Conventional, oneequation, and two-equation models were used for heat transfer modeling. The accuracy and characteristics of each model were investigated and discussed. The results were compared with experimental data. Baffles were mounted alternatively on the top and bottom walls. Heat transfer coefficients and pressure loss for periodically fully developed flow and heat transfer were obtained for different pore densities (10, 20, and 40 pores per inch (PPI)) with two different baffle heights ( / h h B D = 1/3 and 2/3), and two baffle thicknesses ( / t h B D = 1/3 and 1/12). The Reynolds number (Re) was varied from 20,000 to 50,000. To compare the effect of foam metal baffles, the data for conventional solid-type baffles was obtained for ( / t h B D =1/3). The maximum uncertainties associated with the module Nusselt number and friction factor were 5.8% and 4.3%, respectively. The experimental procedure was validated by comparing the data for the straight channel without baffles ( / h h B D = 0) with those in the literature. The use of porous baffles resulted in heat transfer enhancement as high as 300% compared to heat transfer in straight channels without baffles. However, the heat transfer enhancement per unit increase in pumping power was less than one for the range of parameters studied in this work. Correlation equations were developed for the heat transfer enhancement ratio and the heat transfer enhancement per unit increase in pumping power in terms of Reynolds number. The conventional theoretical model, the dispersion conductivity model, and the modified two-phase model using the local thermal non-equilibrium theory were considered. The results from each model were compared against the experimental data, and compared to each other to investigate the efficiency of each model. Also, the characteristics of each model were discussed.

Porous

Effective Conductivity

Foam Material

Turbulent Flow

Two-Equation Model

Retirement savings of Canadian households : an econometric analysis for 1992 and 1996

Gagnon, Caroline

08 1900

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. / In Canada taxpayers have an opportunity to save on their taxes through a program entitled the Registered Retirement Saving Plan, one of the most important tax deferred savings vehicles offered. RRSPs were first introduced in Canada in 1957. The contribution limits were increased substantially in the early 1970s, and RRSPs were widely promoted. Since then, they have become a prominent form of Canadian saving. RRSP contributions now exceed the total of employee and employer contributions to employer-provided pension plans (Revenue Canada, Tax Statistics on Individuals, Edition 1998). The RRSP option is especially attractive considering that the Canada Pension Plan, historically responsible for providing retirement benefits to all Canadians over age 65 when they retire, is in a precarious situation due to demographic changes. These factors would have us believe that a large number of Canadians take advantage of the RRSP program to save on their taxes, as well as to assure their old ages with a sufficient level of wealth. In fact, only one-third of Canadian families ^A4^o had access to the RRSP option contributed to such a plan in 1997 (Globe and Mail, March 1998, Calculations using data from Statistics Canada). u This paper describes a model for predicting the outcome of the RRSP decision making process for households. In this paper, we will explore a two-equation model for estimating households' behavior toward the decision to contribute in a RRSP and the amount of contribution. Our approach will integrate two groups of characteristics of households : one being demographic with age, gender, family size, location, education, and marital status and the other being financial with income, pension, debt and non liquid assets. We expect our empirical results to be consistent with previous researches based on the Individual Retirement Account (IRA), the American alter ego of the Canadian Registered Retirement Saving Plan (RRSP). 0 The main purpose of this paper is to develop a model that demonstrates a framework of Canadian households' behavior regarding their decisions to contribute to their own retirement wealth. It is still very early to draw conclusions about the households decisions and behaviors because the government is stilt very present as a source of retirement income. However, it is helpful to observe contemporary trends in order to determine the means of improving the information given to the general population regarding RRSPs.

Registered Retirement Saving Plan (RRSP)

Tax-deferred savings

Canada Pension Plan (CPP)

Household behavior

Contribution

Demographics

Two-equation model

Retirement savings

Financial characteristics

Individual Retirement Account (IRA)