Spreadsheet Fluid Dynamics

TL;DR: In this paper, a method of concurrent processing of chain calculations using multiple processors each having a separate recalculation engine in a spreadsheet program is described, where the operations basically include first determining a number of available processors, then allocating a recalculating engine to each available processor, distributing the formulas between the recalculation engines, and then concurrently evaluating the formulas distributed to each recalculative engine when a recalc operation is called for in the spreadsheet program.

TL;DR: In this article, the authors have demonstrated that the fluid dynamics equations could be solved efficiently by using a spreadsheet, where the cells in the spreadsheet are viewed as either natural grids in CFD or elements of a matrix.

TL;DR: The use of spreadsheet programs in teaching the numerical aspects of computational fluid dynamics is explored, including solutions to the basic partial differential equations for fluid flow and iterative techniques for matrix inversion.

TL;DR: The authors have demonstrated that the fluid dynamics equations could be solved efficiently by using a spreadsheet and the result can be visualized on the same spreadsheet with inherent graphics.

TL;DR: In this article, a square pig slides without friction across a table at constant velocity at constant acceleration and when it reaches the end of the table, it flies off and lands on the ground.

TL;DR: In this article, the authors introduce heat exchangers -introduction, classification and selection heat exchanger thermohydraulic and thermodynamic properties of heat exchange, and design of shell and tube heat exchange.