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Last Updated: Aggregation Period:Jan 21, 2026~Feb 17, 2026
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Simulation Software Product List

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Optimization of the rear wing shape

Optimization of the rear wing shape

Utilizing CAESES for the optimization of the rear wing shape attached to racing cars!

FRIENDSHIP SYSTEMS, the developer of CAESES, has actively supported student racing teams such as FaSTTUBe and the Ryerson Formula Racing Team. Among these, CAESES was utilized for the optimization of the rear wing shape of racing cars in the Formula Student Germany (FSG) contest, which gathers students from all over Germany. This case study will introduce the optimization of the rear wing and its results. *For more detailed information, please refer to the related links. For further inquiries, feel free to download the PDF or contact us.*

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Propeller design for efoil using CAESES

Propeller design for efoil using CAESES

Here is a brief introduction to the design of the propeller included with the foil board!

Do you all know about "efoil"? An efoil is an electric foil board that allows you to experience the sensation of flying above the water. Here, we will introduce some aspects of the propeller design that comes with the foil board, as discussed by a CAESES user with FRIENDSHIP SYSTEMS, the developer of CAESES. *You can view the detailed content of the article through the related links. For more information, please download the PDF or feel free to contact us.*

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  • 3D Printer
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Parametric model of twin-skeg boats in CAESES

Parametric model of twin-skeg boats in CAESES

It is possible to flexibly control various parts related to hull characteristics!

We will introduce the parametric model of a twin-skeg vessel created by FRIENDSHIP SYSTEMS, the developer of the CAD + optimization software CAESES. In cases where the shape is symmetrical, only half of the hull is typically modeled. With CAESES, it is possible to robustly construct a model that incorporates the deformations anticipated by the user. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.

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  • Other CAD
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Aerodynamic optimization of vertical axis wind turbines

Aerodynamic optimization of vertical axis wind turbines

CAESES can perform optimization calculations and support users in their design tasks!

In this case, we will introduce the optimization calculations for vertical axis wind turbines. FRIENDSHIP SYSTEMS, the developer of the optimization design system CAESES, investigated the aerodynamic behavior of vertical axis wind turbines using the mesh generation software Pointwise. As a first initiative, FRIENDSHIP SYSTEMS connected the automatic mesh generation by Pointwise with CAESES and executed a method to optimize vertical axis wind turbines in 2D using various tools, including analysis software. *For more details, you can view the related links. For further information, please download the PDF or feel free to contact us.*

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  • Turbine
  • Simulation Software

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Online software "Pro EZGC Chromatogram Modeler"

Online software "Pro EZGC Chromatogram Modeler"

Easy, no download required! Simulate the changes in separation.

Restek's "Pro EZGC Chromatogram Modeler" is a web application that provides free separation simulations using WCOT-type GC columns. You can easily simulate separation checks and changes in separation when modifying the temperature program directly on our website without downloading anything to your PC. Various columns with significantly different selectivities of liquid phases are registered, and each liquid phase also has an available compound library. 【Features】 ■ Free separation simulations ■ Simulations can be performed on the website ■ Various columns with significantly different selectivities of liquid phases are registered ■ Each liquid phase has an available compound library ■ Multilingual support *For more details, please refer to the PDF document or feel free to contact us.

  • Other information systems
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Reduction of CO2 emissions through hull shape optimization.

Reduction of CO2 emissions through hull shape optimization.

Introducing how much the annual CO2 emissions have been reduced by utilizing CAESES!

FRIENDSHIP SYSTEMS, the developer of CAESES, has contributed to the reduction of energy consumption and CO2 emissions not only through support for the improvement of turbo machinery and engine-related parts but also for vessels. This article will introduce the experiences in design and improvement for CO2 emission reduction and how much annual CO2 emissions have been reduced by utilizing CAESES. *For detailed content of the article, please refer to the related link. For more information, feel free to download the PDF or contact us.

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Electron Microscope Simulation Software BioNet BesTEM

Electron Microscope Simulation Software BioNet BesTEM

Faithfully simulate TEM/STEM images! Capable of handling protein samples and viruses as well.

"BioNet BesTEM" is a transmission electron microscope image simulation software that can simulate six-pole aberration-corrected electron microscopes from both domestic and international manufacturers, including JEOL and FEI. It can calculate beam intensity and Ronchigram while considering the optical system's influence of aberration-corrected electron microscopes. In addition to material system simulations, various functions have been added to enable effective simulations regarding the determination of optical conditions for actual cryo-electron microscopes in protein structure analysis. 【Features】 ■ Achieves overwhelming high-speed computation by setting a GPU-equipped PC with the software ■ Simulation calculations that consider optical conditions such as aberrations ■ Capable of structural analysis at the material and atomic levels ■ Can handle data from protein samples and viruses ■ Can simulate six-pole aberration-corrected electron microscopes from both domestic and international manufacturers ★ Free trial version available ★

  • simulator
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  • Electron microscope
  • Simulation Software

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Optimization of axial fans using TCFD and CAESES.

Optimization of axial fans using TCFD and CAESES.

The goal of the optimization calculation is to maximize fan efficiency at specific flow rates and increase airflow!

In this case, we will introduce the automatic optimization workflow for axial fan rotor blades developed by CFDSupport, the creator of TCAE, and FRIENDSHIP SYSTEMS, the creator of CAESES. The project began in response to requests from designers and manufacturers who have basic designs for axial fans and wish to improve existing products into more optimal shapes. *For detailed content of the article, you can view it through the related links. For more information, please download the PDF or feel free to contact us.*

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  • Structural Analysis
  • fan
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Design of a centrifugal water pump

Design of a centrifugal water pump

Implementing the design process of a centrifugal water pump that maximally utilizes the capabilities of CAESES!

Centrifugal pumps are commonly used in industrial and household applications because their design, manufacturing, and maintenance are relatively simple. They also have the advantage of being efficient and easily adaptable to various sizes. Students from the Department of Transportation Systems at the Technical University of Berlin implemented the design process of a centrifugal water pump that maximizes the capabilities of CAESES as part of an internship project at FRIENDSHIP SYSTEMS, the developer of CAESES. *For more details, you can view the related links. For further information, please download the PDF or feel free to contact us.*

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  • Structural Analysis
  • Other pumps
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[Example] Materials Studio Y Additive Properties

[Example] Materials Studio Y Additive Properties

[Example] Introducing the properties of Y-doped ZnO monolayers in semiconductor devices using Materials Studio.

◇Materials Studio Semiconductor Device Y Additive ZnO Monolayer Characteristics Case Study - As a semiconductor-based technology, applications for semiconductor devices such as transistors and diodes, as well as photocatalysts, are gaining attention. - We will introduce a case study utilizing "Materials Studio" for semiconductor-based photocatalysts. 【Product Features】 ■ Also optimal for "Materials Informatics" ■ Simulation software that streamlines material development Available for use by those engaged in research, development, design, and manufacturing across various industries ■ Helps in the development of new materials more efficiently and easily. ■ Supports various types of materials ■ All tasks, including crystal structure creation, calculation condition settings, and calculation result display, can be performed on a single GUI screen *For more details, please feel free to contact us. Wavefront Corporation Sales Department MAIL: sales@wavefront.co.jp

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[Example] Materials Studio - Prediction of Physical Properties of Organic Molecules

[Example] Materials Studio - Prediction of Physical Properties of Organic Molecules

[Case Study] Materials Studio: Application of Machine Learning to Organic Molecules - A Case Study of Applying Materials Informatics to Predict the Properties of Organic Molecules.

◇Application of Materials Studio and Material Informatics (MI) to the prediction of physical properties of organic molecules - This presentation introduces a case study utilizing the "Materials Studio" and "Pipeline Pilot" tools to estimate the lipophilicity and hydrophilicity of organic molecules. 【Product Features】 ■ Also optimal for "Materials Informatics" ■ Simulation software that streamlines material development Available for use by those engaged in research, development, design, and manufacturing across various industries ■ Helps in the development of new materials more efficiently and easily. ■ Compatible with various types of materials ■ All tasks, including crystal structure creation, calculation condition settings, and display of calculation results, can be performed on a single GUI screen. *For more details, please feel free to contact us. Wavefront Corporation Sales Department MAIL: sales@wavefront.co.jp

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BACnet Testing Tool-Monitor

BACnet Testing Tool-Monitor

Conducting counter tests in an environment just like the actual site! Introducing a Windows application for simulation!

This product is a central monitoring simulator for verifying the operation of BACnet controllers. It supports most of the functions implemented in central monitoring. You can conduct tests equivalent to the on-site environment in-house without requesting testing support from the central monitoring manufacturer. Additionally, we offer a Windows application called "BACnet Testing Tool-Controller" for simulating BACnet controllers. 【Features】 ■ Monitoring and control of points via panel operation ■ Simplified verification of controllers with easy operation ■ High versatility applicable to any system ■ Easy start with hassle-free automatic recognition *For more details, please refer to the PDF document or feel free to contact us.

  • Other embedded systems (software and hardware)
  • Other network tools
  • EAI/ETL/WEB application server
  • Simulation Software

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[Example] MaterialsStudio Transition State Exploration

[Example] MaterialsStudio Transition State Exploration

[Example] We will guide you through the exploration of transition states using LST/QST.

◇Transition State Exploration Using LST/QST: Case Study - To explore the potential energy surface of a chemical reaction, information regarding structural, energetic, and kinetic aspects for each step of the reaction process is necessary. - Among that information, finding the transition state is particularly important. - In this case study, we analyze using LST and QST, which are well-known methods for transition state exploration, in Materials Studio. 【Product Features】 ■ Also ideal for "Materials Informatics" ■ Simulation software that streamlines material development Available for use by those engaged in research, development, design, and manufacturing across various industries ■ Helps in the development of new materials more efficiently and easily. ■ Compatible with various types of materials ■ All operations, including crystal structure creation, calculation condition settings, and calculation result display, can be performed on a single GUI screen. *For more details, please feel free to contact us. Wavefront Corporation Sales Department MAIL: sales@wavefront.co.jp

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Automatic Optimization using Adjoint Flow Solvers

Automatic Optimization using Adjoint Flow Solvers

It is possible to efficiently obtain optimal candidate geometry that can be directly supplied to the downstream CAD design process!

At FRIENDSHIP SYSTEMS, the developer of the CAD and optimization software CAESES, automatic optimization calculations were performed based on the shape sensitivity calculated by Adjoint Flow Solvers. The open-source optimization toolkit Dakota, integrated into CAESES, provides optimization methods that can directly accept gradient information obtained by combining shape sensitivity with CAD model parameters as input data. Based on this information, the algorithm selects parameters for design candidates created by CAESES, and calculations are performed using Adjoint Flow Solvers. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

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Optimization of Container Ship Shape

Optimization of Container Ship Shape

Partial parametric modeling adopted! Deformation of the hull shape is defined.

One of the representative companies in China's shipping industry, MARIC (Marine Design & Research Institute of China), first utilized CAESES for a project focused on the optimization of hull shapes for container ships. In their research, MARIC engineers selected a baseline with excellent performance and attempted to reduce hull resistance at speeds of 18 knots and 27 knots. The constraints here were the length between perpendiculars, width, and draft, which were fixed values, while the variation in displacement was limited to ±0.5%. *For more detailed information, please refer to the related links. You can download the PDF for more details or feel free to contact us.*

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[Example] STM Simulation of MaterialsStudio

[Example] STM Simulation of MaterialsStudio

Introduction of STM image simulation examples of CO on Pd in "Materials Studio".

Case Study Utilizing "Materials Studio" ◇ Example of "STM Simulation of CO on Pd" - The STM simulation can easily distinguish the differences of CO adsorbed on Pd. - The shape of the STM image suggests that the contrast is mainly due to the π orbitals of the CO molecules. - The colors correspond to the total density of states, with the white areas corresponding to the highest density of states (DOS). ◇ By utilizing "Materials Studio," it contributes to more efficient and easier development of new materials. ■ Also optimal for "Materials Informatics" 【Features】 ■ Simulation software that streamlines material development Available for use by those engaged in research, development, design, and manufacturing across various industries. ■ Compatible with various types of materials ■ All processes including crystal structure creation, calculation condition settings, and calculation result display can be performed on a single GUI screen. *For more details, please feel free to contact us. Wavefront Co., Ltd. Sales Department MAIL: sales@wavefront.co.jp

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Propeller design of Caterpillar Propulsion

Propeller design of Caterpillar Propulsion

Execute tasks such as setting up the blade model and generating individual dynamic 2D drawings!

Caterpillar Propulsion has implemented CAESES for the design of propeller blades. When we started on a project basis, the overall idea was to implement it as a workbench that integrates and controls mesh generation and simulation software. At the same time, CAESES needs to provide a fully parametric 3D blade design that allows Caterpillar Propulsion's engineers to reconstruct the definitions of existing blades and profiles, while also requiring high flexibility to try out entirely new designs. *For more details, please refer to the related link. For further information, you can download the PDF or feel free to contact us.*

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  • Mechanical Design
  • Simulation Software

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Kit "J1939 Starter Kit USB/2"

Kit "J1939 Starter Kit USB/2"

We offer CAN-USB/2 interface modules and J1939 simulation tools!

The "J1939 Starter Kit USB/2" is a starter kit that includes the CAN-USB/2 module. It features complete wiring for two CAN nodes, as well as J1939 simulation tools and a J1939 stack for ESD CAN hardware. 【Kit Contents】 ■ CAN-USB/2 Interface Module ■ Complete wiring for two CAN nodes ■ J1939 stack for ESD CAN hardware ■ J1939 simulation tool ■ ESD CAN Windows driver license * You can download the English version of the catalog. * For more details, please refer to the PDF materials or feel free to contact us.

  • Company:Renas
  • Price:Other
  • Other electronic parts
  • Wiring materials
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[Example] Efficient Optimization through Morphing 'CAESES'

[Example] Efficient Optimization through Morphing 'CAESES'

Only the modified parts of the existing shape are defined by parameters! Various shapes can be created.

We will introduce efficient optimization using morphing with "CAESES," which we provide. It is mainly used in the shipbuilding and maritime industry, but the majority of users focus on full parametric modeling. In morphing (partial parametric modeling), the deformation of imported existing geometry is performed. Therefore, only the modified parts of the existing shape are defined by parameters, allowing for the creation of various shapes. 【Previous Morphing Features】 ■ Shift transformations ■ Lackenby shift ■ Free-Foam deformation (FFD) ■ Cartesian shifts ■ Spot transformations *For more details, please download the PDF or feel free to contact us.

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Optimization of the turbine blade shape of the turbocharger.

Optimization of the turbine blade shape of the turbocharger.

Introduction to the combination of CFD and stress analysis, as well as scallop turbine wheels!

FRIENDSHIP SYSTEMS, the developer of CAESES, has collaborated with MTU and Darmstadt University of Technology to develop a robust and variable turbine wheel geometry for turbochargers. The research, called Project GAMMA ("Efficient Gas Engines for Maritime Applications of the Next Generation"), aims to develop and prepare new technologies and interactions within the system for LNG/natural gas, which serves as fuel for efficient ship propulsion systems. *For more detailed information, please refer to the related links. You can download the PDF for more details or feel free to contact us.*

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  • Structural Analysis
  • Turbine
  • Simulation Software

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Optimization of drone propeller shape

Optimization of drone propeller shape

Providing the right products to customers! Introducing the benefits and applications of CAESES at Parrot.

The French company Parrot, which specializes in the design and development of drones, uses CAESES for the design of drone propellers. The reason Parrot's engineers, who are experts in the drone market, adopted CAESES is to speed up the design process and provide customers with even more suitable products. Here, we will introduce the benefits and applications of CAESES at Parrot. *For detailed information, you can view the related links. For more details, please download the PDF or feel free to contact us.*

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  • Structural Analysis
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  • Simulation Software

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Collaboration feature of CONVERGE and CAESES using the intake port.

Collaboration feature of CONVERGE and CAESES using the intake port.

Supporting development design operations! Introducing features that can be effectively utilized.

The optimization calculation software CAESES and the thermal fluid analysis software CONVERGE work together as a collaborative optimization system aimed at shape optimization and investigating the effects of design variables, providing support to engineers in the design and development field. In this article, we will introduce the functions that can be effectively utilized in CAESES when collaborating with CONVERGE, using intake port models and piston models. *For detailed content of the article, please refer to the related links. For more information, feel free to download the PDF or contact us.

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[Data] Quantum ESPRESSO Interface

[Data] Quantum ESPRESSO Interface

By performing it on a single graphical interface, calculations can be done efficiently!

This document introduces the Quantum ESPRESSO Interface handled by Schrodinger's "Materials Science Suite." Through an official partnership, integration between the molecular simulation environment "Maestro" and "Quantum ESPRESSO" has been realized. By performing advanced quantum simulations from crystal structure creation to execution and analysis on a single graphical interface, efficient computational work is possible. Furthermore, calculations using the Effective Screening Medium method allow for the electronic state calculations of various surface-solvent systems, including electrode surface reactions. [Contents] ■ Nanotechnology and Computational Science ■ About Quantum ESPRESSO ■ Main Features of the Quantum ESPRESSO Interface ■ Maestro and Python API ■ Effective Screening Medium Method (ESM Method) *For more details, please refer to the PDF document or feel free to contact us.

  • Software (middle, driver, security, etc.)
  • simulator
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Marine platform

Marine platform

The final structure reduced relative motion by 4% compared to the initial structure, resulting in material savings.

The support structure of the ocean platform must withstand the effects of waves over a long period and must have sufficient strength. By using CAESES, it is possible to optimize that structure and enhance its ability to withstand waves. This time, we conducted optimization of the ocean platform using CAESES. *For more detailed information, please refer to the related link. For further details, you can download the PDF or feel free to contact us.*

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[Example] Metal ion aggregation in the electrolyte of MaterialsStudio

[Example] Metal ion aggregation in the electrolyte of MaterialsStudio

Introduction of aggregation cases of metal ions in electrolyte solutions using "Materials Studio".

"Materials Studio" can perform battery characteristic calculations [Case Study] ◇ Introduction of aggregation cases of metal ions in electrolytes - RDF calculations were conducted to investigate the aggregation of LiPF6/PC-based electrolytes. - From the RDF, the size of the solvation shell can be examined. - Additionally, using this model, ion diffusion coefficients and charge transport characteristics can also be calculated. [Product Features] ■ Also ideal for "Materials Informatics" ■ Simulation software that streamlines material development It can be utilized by those engaged in research, development, design, and manufacturing across various industries. ■ Helps in the development of new materials more efficiently and easily. ■ Supports various types of materials. ■ All tasks, including crystal structure creation, calculation condition settings, and calculation result display, can be performed on a single GUI screen. *For more details, please feel free to contact us. Wavefront Corporation Sales Department MAIL: sales@wavefront.co.jp

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[Example] Aggregation of gold nanoparticles in aqueous solvent using MaterialsStudio.

[Example] Aggregation of gold nanoparticles in aqueous solvent using MaterialsStudio.

Introduction to the aggregation of gold nanoparticles in aqueous solvent using Materials Studio.

Case Study Utilizing "Materials Studio" ◇Metal nanoparticles, which are nanosized metal particles, are attracting attention due to their unique properties. A typical example is surface plasmon resonance, which is the basis for the vibrant colors seen in stained glass and other materials. However, since this characteristic is exclusive to nanosized particles, it is necessary to prevent particle aggregation. Forcite Plus, a module of Materials Studio, helps observe particle behavior in such cases. 【Product Features】 ■ Ideal for "Materials Informatics" ■ Simulation software that streamlines material development It can be used by those engaged in research, development, design, and manufacturing across various industries. ■ Helps in the development of new materials more efficiently and easily. ■ Compatible with various types of materials ■ Allows for the creation of crystal structures, setting of calculation conditions, and display of calculation results all on a single GUI screen. *For more details, please feel free to contact us. Wavefront Corporation Sales Department MAIL: sales@wavefront.co.jp

  • others
  • plastic
  • Other metal materials
  • Simulation Software

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Optimization Case of Centrifugal Compressor Impeller Using CAESES

Optimization Case of Centrifugal Compressor Impeller Using CAESES

By constructing a parametric model, it is also possible to optimize the entire compressor model!

Centrifugal compressors are compact yet feature a high pressure ratio, and they are widely used in systems in the fields of aircraft and marine vessels. Impeller design is a crucial design aspect of centrifugal compressors and has a significant impact on compressor performance. In this case, we conducted automatic performance optimization using CAESES combined with CFD tools on an existing centrifugal compressor impeller model. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

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  • Centrifugal concentrator
  • Simulation Software

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Optimization of Marine Propeller Blade Shape Using OpenFOAM

Optimization of Marine Propeller Blade Shape Using OpenFOAM

The blades used for calculations can be created using the "Generic Blade" feature of CAESES.

One of the advantages of CAESES is its optimization design through an automation system connected to CFD software. This article introduces the blade shape optimization of marine propellers using OpenFOAM and CAESES, which is currently in use. In CAESES, in addition to methods for designing parametric 2D and 3D models, it is also possible to connect with various external software. *For more details, you can view the related links. For further information, please download the PDF or feel free to contact us.*

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  • Software (middle, driver, security, etc.)
  • Other analyses
  • Simulation Software

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Optimization of globe valve shape

Optimization of globe valve shape

The purpose is to improve and investigate the performance of globe valves, connecting the cloud-based CFD solver SimScale with CAESES!

CAESES has been conducting optimization calculations for various types of valves and has implemented projects in collaboration with various companies. In this context, we would like to introduce one of the newly conducted projects, "Shape Optimization of a Globe Valve." This project was carried out in cooperation with GEMÜ Gebr. Müller Apparatebau, a German valve manufacturer and a global company specializing in aseptic valves, and SimScale, a leading engineering simulation company. *For more detailed information, please refer to the related links. You can download the PDF for more details or feel free to contact us.*

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  • Structural Analysis
  • Other CAD
  • valve
  • Simulation Software

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