Recognizing this, ABSIM has been structured around unit subroutines, each of which contains the governing equations for the particular unit. Most absorption systems consist of a number of standard components or units (e.g., absorber, condenser) that may be combined in different forms to produce various cycles. Special more » utilities enable the user to plot the results and produce a pressure-temperature-concentration (P-T-X) diagram of the cycle. A graphical user interface enables the user to draw the cycle diagram on the computer screen, enter data interactively, run the program and view the results either in the form of a table or superimposed on the cycle diagram. ABSIM makes it possible to investigate various cycle configurations with different working fluids, to calculate their operating parameters, to predict their performance and to compare them with each other on a uniform basis.
#TRNSYS SIMULATION PROGRAM CODE#
« lessĪBSIM (an acronym for ABsorption SIMulation) is a user-oriented computer code designed for the simulation of absorption systems at steady state, in both flexible and modular form. The other package incorporates a general front-end, called IISIBat, that is a general simulation tool front-end.
#TRNSYS SIMULATION PROGRAM WINDOWS#
One package closely resembles the DOS version and includes TRNSHELL for Windows and PRESIM for Windows. Several organizations worked on this conversion that has resulted in two distinct Windows packages. Therefore, the next logical step in increased usability was to port the current TRNSYS package to the Windows operating system.
#TRNSYS SIMULATION PROGRAM PC#
Most TRNSYS users operate on PC computers with the Windows operating system. The increase in usability leads to a decrease in the time necessary to prepare more » the simulation. PRESIM, which allows the graphical creation of a simulation system, and TRNSED, which allows the easy sharing of simulations. These programs include TRNSHELL, which encapsulates TRNSYS functions. This package represents a significant step forward in usability due to several graphical utility programs for DOS. Each physical component in the system, such as a pump or solar collector, is represented by a different FORTRAN subroutine.
In this experimental study, only the standby mode was considered.TRNSYS, commercially available since 1975, is a computer program used primarily to simulate thermal energy systems. In the standby mode, there is no forced water flow into or out of the tank. In the discharge mode, water flows from the storage tank through the distribution pipes to the faucets and cold city water enters the tank. In the charging mode, the tank receives energy from the solar collector. Heat losses from a storage tank and its plumbing fittings involve three different operating modes: charging, discharging and standby. This study is intended to address only that part of the problem that deals with the plumbing fittings attached to the tank. Unfortunately, this generalized formula does not adequately address temperature stratification both within the tank as well as in the ambient air surrounding the tank, non-uniform insulation jacket, thermal siphoning in the fluid lines attached to the tank, and plumbing fittings attached to the tank.