A mathematical model for temperature and heat loss characteristics of underfloor electrical resistance heating and storage system

Hoang, Trung Quang.

January 1985

Call number: LD2668 .T4 1985 H62 / Master of Science

Resistance heating.

Heat storage.

Heat--Transmission--Computer programs.

Masters theses

Numerical prediction of heat transfer under a turbulent impinging slot jet with surface motion and crossflow

Huang, George Pei-gear.

January 1983

No description available.

Air jets.

Numerical prediction of heat transfer under a turbulent impinging slot jet with surface motion and crossflow

Huang, George Pei-gear.

January 1983

No description available.

Air jets.

Computational Study of the Heat Transfer and Fluid Structure of a Shell and Tube Heat Exchanger

Unknown Date

A common technique to improve the performance of shell and tube heat exchangers (STHE) is by redirecting the flow in the shell side with a series of baffles. A key aspect in this technique is to understand the interaction of the fluid dynamics and heat transfer. Computational fluid dynamics simulations and experiments were performed to analysis the 3-dimensional flow and heat transfer on the shell side of an STHE with and without baffles. Although, it was found that there was a small difference in the average exit temperature between the two cases, the heat transfer coefficient was locally enhanced in the baffled case due to flow structures. The flow in the unbaffled case was highly streamed, while for the baffled case the flow was a highly complex flow with vortex structures formed by the tip of the baffles, the tubes, and the interaction of flow with the shell wall. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2016. / FAU Electronic Theses and Dissertations Collection

Computational fluid dynamics.

Thermodynamics.

Heat--Transmission--Computer programs.

A mathematical model for calculating transient heating or cooling loads from lighting

Green, Daniel Joseph

January 2011

Digitized by Kansas Correctional Industries

Lighting

Heat--Transmission--Computer programs

Heat--Convection

Heat--Conduction

Heat--Radiation and absorption

Effectiveness of Additive Correction Multigrid in numerical heat transfer analysis when implemented on an Intel IPSC2

Padgett, James D.

01 January 1992

The effectiveness of the Additive Correction Multigrid (ACM) algorithm, a line-byline Tri-diagonal Matrix Algorithm (TDMA), and simple Gauss-Seidel (GS) iteration in numerical heat transfer analysis is investigated on a conventional single processor computer and on a distributed memory parallel computer. The performance of these methods is studied by solving a two-dimensional, steady heat conduction problem. The execution time of ACM on a single processor is proportional to the number of unknowns to the 1.5 power. This is in contrast to the execution time of the TDMA for which the execution time is proportional to the number of unknowns to the 2.0 power. The GS , TDMA and ACM algorithms are adapted to a model IPSC2 Intel hypercube which has a 32 processing nodes each with 8 MBytes oflocal memory. Because GS is a local method, it has almost perfect speed up, but it also converges more slowly than TDMA, The TDMA, on the other hand, is affected by domain decomposition to a greater extent than GS. As the number of processors used to solve the problem is increased, the execution times for GS and TDMA are essentially equal. Solving the model problem with 32 processors on a 192x192 grid resulted in parallel efficiencies of 95%, 80% and 78% for the GS, TDMA, and ACM algorithms, respectively. Though the parallel efficiency of ACM was the lowest of the three, the parallel ACM algorithm required an order of magnitude less time to solve the model than either parallel GS or parallel TDMA without multigrid.

Computer algorithms

Multigrid methods (Numerical analysis)

Mechanical Engineering

Influence of Heater Orientation on Fluctuations in Steady-state Nucleate Boiling

Osborne, William F.

03 November 1995

In observations of steady-state nucleate boiling, fluctuations in the temperature and heat flux might initially appear to be completely random. However, it was shown that, for a vertically mounted platinum wire in liquid nitrogen, the fluctuations about the steady-state exhibit an average counterclockwise circulation when the heat flux is plotted versus the superheat temperature. An area associated with the average circulation was proposed as a numerical measure of stability for steady-state nucleate boiling. The mechanisms for the generation of these fluctuations are thought to be the feedback of the bubbles rising past the wire and the differential heating and cooling that this engenders. Data similar to the data on the vertical wire have been obtained using the same wire mounted horizontally. Although the counterclockwise circulation mentioned above is still seen, the measure of stability as proposed earlier, is less useful for prediction of the transition to film boiling. This reduced sensitivity can be attributed to the fact that the possibility of feedback through the rising bubbles has been eliminated.

Nucleate boiling -- Computer programs

Communication

Speech and Rhetorical Studies