UNISIM DESIGN CAPABILITIES SOFTWARE
The modelers can readily exchange information with Honeywells UniSim Design process simulator and other third-party or in-house software to provide an integrated design office solution. The software is easy to use, with a comprehensive graphical user interface. They offer a high level of confidence in predicting heat transfer and fluid flow characteristics in single- and two-phase flow, including considerations such as flow stability and maldistribution, and provide comprehensive fluid property predictions to support these. Main Features and Functionality The UniSim Heat Exchangers are validated programs designed for use by the process design community for the thermal design and simulation of heat exchange equipment. The modelers can be integrated into Honeywells UniSim Design software for steady-state and dynamic process simulation. UniSim Plate Heat Exchanger Modeler (PHE) UniSim Fired Process Heater Modeler (FPH) UniSim Cross-Flow Exchanger Modeler (CFE) UniSim Shell-Tube Exchanger Modeler (STE)
To meet these challenges, Honeywell offers a set of programscollectively called UniSim Heat Exchangers-that enable thermal specialists to design, check, simulate and rate heat exchange equipment rigorously: If a heat exchanger fails or is improperly designed, the process cannot run appropriately, which can lead to a range of issues including lost production and even safety concerns. UNISIM achieves this goal with a combination of modular software development, distributed communication protocols, multilevel abstract modeling, interoperability capabilities, a set of simulator services APIs, and an open library/repository for providing a consistent set of simulator modules.Software for thermal design and simulation of heat exchangers UniSim Heat Exchangers is a set of modeling programs that can be used on their own, or integrated with process simulator software such as Honeywells UniSim Design.Ī Solution to Heat Exchanger Design Challenges The heat exchanger is one of the most critical aspects of plant design because it affects so much of the overall operation, and is typically one of the most expensive pieces of equipment to maintain. We present a new simulation environment, called UNISIM, which is designed to rationalize simulator development by making it possible and efficient to distribute the overall effort over multiple research groups, even without direct cooperation. UNISIM achieves this goal with a combination of modular software development, distributed communication protocols, multilevel abstract modeling, interoperability capabilities, a set of simulator services APIs, and an open library/repository for providing a consistent set of simulator modules.ĪB - Simulator development is already a huge burden for many academic and industry research groups future complex or heterogeneous multi-cores, as well as the multiplicity of performance metrics and required functionality, will make matters worse.
N2 - Simulator development is already a huge burden for many academic and industry research groups future complex or heterogeneous multi-cores, as well as the multiplicity of performance metrics and required functionality, will make matters worse.
All opinions, findings, conclusions, and recommandations expressed are those of the authors and do not necessarily reflect the views of any of our supporters. Supported by National Science Foundation grant NGS-0305617. Supported by the HiPEAC Network of Excellence under contract No. T2 - An open simulation environment and library for complex architecture design and collaborative development
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