Improve the Design and Simulation of Air Coolers.
Use Aspen Air Cooled Exchanger for designing and rating air-cooled exchangers and cross-flow heat exchangers for common process applications, including single-phase, condensation, and evaporation.
Designing and rating air cooled exchangers using Aspen EDR provides optimized equipment designs. Air cooler simulation models and correlations are based on over 40 years of Aspen (HTFS) proprietary research. Capabilities include extensive tube layout drawings, graphing capabilities and design optimization for both capital cost and operating cost. By designing and rating air cooled exchangers using Aspen EDR users are able to save about 10-30% on their equipment cost.
One of the strong advantages of designing and rating air cooled exchangers using Aspen EDR is the full access users get to the industry-leading Aspen Properties® databanks and Aspen HYSYS Thermodynamics COM Interface®. Using the same properties in air cooler simulation models as are used in the process model, maintains engineering quality and consistency. Additionally, the Aspen HTFS Research Network provides reliable theoretical models and correlations for designing and rating air cooled exchangers.
Exchanger Design & Rating users can easily import Air cooler simulation
models and designs into Aspen Plus & Aspen HYSYS and instantly view the
impact of design decisions on heat exchanger operational performance. Users can
easily monitor air cooler simulation models and for critical performance issues
such as excessive operating temperature & pressure, erosion, and more!
Designing and rating air cooled exchangers using Aspen EDR gives increased emphasis on fast-track, front-end engineering through fully integrated tools for process design, air cooler simulation, exchanger thermal sizing, cost estimation, and drawing production.
Optimize CAPEX and OPEX by rigorously modeling heat exchangers within the larger process with rigorous HX models and seamless data flow across disciplines.
<p>Use <strong>Aspen Air Cooled Exchanger</strong> for designing and rating air-cooled exchangers and cross-flow heat exchangers for common process applications, including single-phase, condensation, ...
<p><strong>Aspen Fired Heater<span style="margin: 0px;">®</span></strong> is a simulation and rating program for modeling a complete fired process heater system, including both radiant and convect...
<strong>Aspen HTFS Research Network™</strong> offers a comprehensive reference to the science and technology supporting the Aspen Exchanger Design & Rating suite of thermal design programs.
<p><strong>Aspen Plate Exchanger</strong> software is a single solution for the design, checking, and performance simulation of gasketed, welded, or brazed plate heat exchangers.</p><div></div>
<p><strong>Aspen Plate Fin Exchanger</strong> is the latest generation of thermal design software for the design, simulation, and rating of plate-fin exchangers (multi-stream). Plate-fin heat exchange...
<p><strong>Aspen Shell and Tube Exchanger</strong> generates the design for all major industrial shell and tube heat exchanger equipment types and applications, including single-phase, condensation, a...
<p>Design and rating modes of <strong>Aspen Shell and Tube Mechanical</strong> help optimize the thickness of exchanger components, and help determine if a component's thickness is adequate for a give...
Address the complexities of LNG processes with the latest technology available – Aspen Coil Wound Exchanger.
Tuesday, January 28, 2020
Wednesday, January 29, 2020
Tuesday, February 4, 2020
Wednesday, February 5, 2020