Simerics-MP+ for Marine- a perfect package
Simerics-MP+ Testimonial from DM8 Composites
“For new CFD users like us, Simerics-MP+ for Marine is the perfect package! It provides a smooth and robust CAD to CFD workflow in less than 7 steps along with zero CAD clean up and excellent technical support. We’ve found that Simerics-MP+ for Marine is far superior in terms of speed (with their MPI parallel simulation capabilities) and accuracy with experimental results. Our applications involve resistance/powering, boat maneuvering, etc., which we struggled previously to run with other commonly known CFD tools on the market. With Simerics-MP+, the numerical settings, like mesh size and layout, time step, numerical schemes, etc. are properly set and stored in their marine specified template, which covers almost 100% of our application. These helps up to get the job done in no time.”
Simerics-MP+for Marine- a very streamlined and robust CFD tool
Simerics-MP+ Testimonial from HSMarine
“We have been using Simerics-MP+ at HSMarine Propulsion for the past two years. It has proved to be a very streamlined and robust CFD tool to run ship hull and propeller or waterjet simulations. Geometry preparation is easy and comes directly from our usual CAD modeling methods. The meshing is simple, yet flexible enough to model the critical attributes of the simulation. Solutions have proven to be very reliable and accurate. The code is very fast and in many cases geometry to solution takes only a couple of hours. The interface is very intuitive for Naval Architects, using standard terminology, and many of the important attributes of interest (pitch, heave, EHP, etc.) are preprogrammed to be plotted or extracted from the simulations.
This software has enabled us to investigate the details of the flow around the hull, appendages and propellers that provide answers to questions that we have only been able to estimate or answer with empirical information. The ability to simulate the actual operating conditions with all the physics modeled correctly enables us to make better decisions of tradeoffs between design choices and provide better solutions to customers.”
Simerics-MP+ is the perfect CFD tool for Hyundai
Simerics-MP+ Testimonial from Hyundai-Kia Motors
There are many CFD tools to choose from; however, there is no doubt that Simerics-MP+ is the perfect CFD tool for multiple automotive applications. Hyundai successfully uses Simerics-MP+ for the analysis of cavitation and pressure fluctuation in its fluid power systems, and specifically, its pumps and valves. Simerics-MP+ is impressive because it is able to simulate transient fluid dynamic effects for automotive pumps; plus, I am very satisfied with the cavitation modeling capabilities of Simerics-MP+. It is uniquely suited to deal with very small gaps where cavitation can occur. I look forward to utilizing Simerics-MP+ even more in the future as new developments are released.
Simerics-MP+ New Template Helps Ford analyze their crescent oil pumps
“Due to complexities of interaction among gears and crescent-shaped island, a crescent oil pump is one of the most difficult auto components to model using three dimensional CFD. The present study shows that the proposed computational model is very be used as a reliable crescent pump design tool.”
“A Three-Dimensional Design Tool for Crescent Oil Pumps,” by Yu Jiang, Michal Furmanczyk and Samuel Lowry of Simerics, Inc.and Dengfu Zhang and Chin-Yuan Perng of ATEO, Ford Motor Company, was presented at the 2008 SAE conference in Detroit, Michigan.
Simerics-MP+ Helps Magna Powertrain Design Better Pumps
Simerics-MP+ Testimonial from Magna Powertrain:
Magna Powertrain, Engine Technologies Group, Concord Ontario acquired the simulation software Simerics-MP+ in 2006 to support its oil pump development team whose main responsibility is the design of gerotor and vane pumps. The team has proved that the code provides accurate results with the pre-processing/setting time reduced to as low as two hours using the Simerics-MP+ templates and the automatic mesh generator. Simulations were performed in a short period of time which allowed us to compare three or four design options back to back and to make the best possible decision before building the prototypes. Simerics-MP+ was very useful in addressing issues related to cavitation discovered in the first stage design. The cavitation was either eliminated or reduced to a minimum in the second stage design. Overall, Simerics-MP+ has proved to be a very useful, user-friendly tool designed especially for pump designers to help them make the best possible design decisions to meet or exceed the customer expectations.
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