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simulation(cfd) - List of Manufacturers, Suppliers, Companies and Products

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
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simulation Product List

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Computational Fluid Dynamics (CFD) Simulation Altair CFD

Computational Fluid Dynamics (CFD) Simulation Altair CFD

The overwhelming breadth of CFD simulations.

Altair CFD provides a comprehensive toolset for solving fluid dynamics problems. It assists with thermal analysis of buildings, predicting aerodynamic characteristics of vehicles, optimizing lubrication for gearboxes, reducing noise from cooling fans, and developing innovative medical devices. ◆ Corresponding CFD Methods - General Navier-Stokes (NS) solver for thermal and general applications - Smoothed-Particle Hydrodynamics (SPH) solver, ideal for simulating free surface oil coating, sloshing, and mixing - Lattice Boltzmann Method (LBM) solver for aerodynamics and aeroacoustics All of these solutions are offered under a single license, allowing companies to minimize software costs while addressing a wide range of fields.

  • Thermo-fluid analysis

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The importance of full-scale CFD simulation for ships.

The importance of full-scale CFD simulation for ships.

Hybrid calculation method for reusing CFD information and metamodeling.

This paper demonstrates that the differences between model-scale flow and full-scale flow have significant impacts. It has been found that in various projects, the ranking of design candidates in optimization or the operating conditions in trim optimization differ between model-scale and full-scale calculations. The differences between model-scale and full-scale are particularly evident in the relatively different boundary layers and breaking waves behind the transom stern. Therefore, in simulation-based design projects, full-scale analysis is considered preferable. In rule-based optimization, the choice of approach becomes more complex due to time and computational resource constraints. The hybrid calculation method that reuses CFD information and metamodeling is seen as a technology that paves the way for using full-scale CFD as a standard option in optimization.

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  • Thermo-fluid analysis

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Flooded road driving simulation using SimericsMP

Flooded road driving simulation using SimericsMP

Introduction to the simulation of floodway driving as a case study of free surface analysis.

In this article, we will introduce application examples that can be useful for product development using Simerics' CAE/CFD software. In particular, in Japan, there are many instances of flooding, and there are situations where we must drive on submerged roads. Creating vehicles that can withstand flooded road conditions has become one of the important challenges in automotive development, but this requires spending a lot of cost and time on prototype manufacturing and testing. CFD simulations tend to become large-scale and take a long time to compute, but with Simerics' CFD, high-performance free surface fluid analysis can be processed quickly through large-scale parallel computing, allowing for easy and rapid results. The complex engine compartment is also modeled in detail, reproducing conditions close to actual experiments. Of course, changes in water depth and driving speed are also easily possible. From these calculation results, we can understand the pathways and amounts of water intrusion, providing feedback for shape design and preventing damage and electric shock. There are still many reasons to use Simerics' CFD software. You can find more details through the link below or feel free to contact us anytime!

  • simulator
  • Contract Analysis
  • Thermo-fluid analysis

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CFD simulation of high-speed and highly reliable plate counterflow heat exchangers.

CFD simulation of high-speed and highly reliable plate counterflow heat exchangers.

Webinar on June 24, 2021 (Thursday) at 11:00 PM! About creating meshes for plate counterflow heat exchangers, etc.

Predicting the performance of heat exchangers is often a challenging task. To use simplified methods such as the NTU (Number Transfer Units) method, a series of assumptions must first be made. By leveraging CFD, it is possible to analyze the flow details more accurately. With OMNIS, you can easily set up meshes and simulations to analyze this type of problem. See how Cadence's OMNIS provides fast and reliable results and contributes to the development of heat exchangers. In the webinar, you will learn about mesh creation and simulation for plate counterflow heat exchangers. [Topics covered in the webinar] - Multi-domain mesh creation, combining S2V and V2V approaches - Conjugate heat transfer simulation using OMNIS/Open-PBS *For more details, please refer to the related link page or feel free to contact us.

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  • Technical Seminar

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Simulation of Powder and Granular Flow in Manufacturing Processes for the Pharmaceutical Industry

Simulation of Powder and Granular Flow in Manufacturing Processes for the Pharmaceutical Industry

We utilize particle and fluid simulation technology to support the understanding and improvement of granular behavior.

We predict and evaluate the flow behavior of powders and granular materials through numerical simulation. In the pharmaceutical manufacturing process, a large amount of powders and granular materials are handled. This service simulates the complex flow behavior of particulate materials using computational fluid dynamics (CFD) based multiphase flow analysis and discrete element method (DEM). It can be utilized for understanding mechanisms through visualization of phenomena, conceptual design, and consideration of equipment improvement and scale-up.

  • Fluid analysis contract

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Bulk Material and Powder Particle Simulation Altair EDEM

Bulk Material and Powder Particle Simulation Altair EDEM

Visualization of powder behavior

Altair EDEM, equipped with DEM, rapidly and accurately simulates and analyzes the behavior of bulk materials such as coal, ore, soil, fibers, grains, small pieces, and powders, significantly reducing the costs of physical prototyping and testing. It implements models that accurately reproduce complex phenomena of bulk materials, such as agglomeration, fragmentation, and elastoplasticity, allowing for the visualization of phenomena that are difficult to observe in experiments, even in bulk processes. EDEM also enables the understanding and prediction of granular material behavior, performance evaluation of equipment, and optimization of processes.

  • simulator

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[AICFD] AI Prediction Simulation of Hull Resistance

[AICFD] AI Prediction Simulation of Hull Resistance

The AI prediction feature is one of the distinctive modules of AICFD! It solves the problem of an enormous number of analysis iterations.

In this case, we will simulate the resistance values of a submarine under specific conditions using the AI forecasting function (Intelligent Forecasting) equipped in AICFD. The AI forecasting function is one of the distinctive modules of AICFD, and it solves the problem of the enormous number of analysis iterations in industrial design simulations through real-time result predictions by AI. *For more detailed information, you can view it through the related links. For more details, please download the PDF or feel free to contact us.*

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  • Other analyses
  • simulator

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[AICFD] Automotive AI Acceleration Simulation

[AICFD] Automotive AI Acceleration Simulation

Simulating the flow around the vehicle body using the AI acceleration feature equipped in AICFD!

Simulating the flow around a vehicle and analyzing its aerodynamic characteristics is an important task for evaluating the impact of a car's shape and design on airflow. This provides various qualitative and quantitative information directly related to fuel efficiency, driving stability, and driver safety. In this analysis, which uses models of various scales from simple shapes to detailed models, information is derived through analysis to investigate the wide-ranging effects from design to manufacturing and driving performance, while considering computational time and machine leasing costs. In this analysis, we simulated the flow around the vehicle body using the AI acceleration feature integrated into AICFD. Additionally, we verified the effectiveness of the AI acceleration feature by comparing computational time and accuracy between the standard analysis and serial core using the same model. *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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  • Other analysis software

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Simulation of an internal gear pump using Simerics MP+.

Simulation of an internal gear pump using Simerics MP+.

Introducing a simulation of an internal gear pump, which is an example of fluid analysis.

CFD provides detailed data that is difficult to obtain through experiments, helping to shorten product development periods and reduce prototyping costs. In this article, we will introduce application examples that can assist in product development using Simerics' CAE/CFD software. One common component used in hydraulic machinery, such as automotive oil pumps, is the internal gear. Research and development are continuously conducted to enhance the efficiency of transporting hydraulic oil. However, this requires significant time and costs for prototyping and testing the oil pump. Additionally, even when performing CFD simulations, generating the computational mesh for the gear teeth can be quite labor-intensive. With Simerics' CFD, high-performance template meshes are provided, and the deformation of the computational mesh that occurs during calculations is fully automated, allowing anyone to easily and quickly generate meshes. This is expected to lead to significant reductions in man-hours and costs! There are still many reasons to use Simerics' CFD software. You can find more information through the link below or feel free to contact us anytime!

  • simulator
  • Thermo-fluid analysis
  • Contract Analysis

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Airflow simulation of the engine room using SimericsMP.

Airflow simulation of the engine room using SimericsMP.

Introduction to airflow simulation in the engine room as a case study of flow analysis.

CFD provides a way to shorten product development time, reduce prototyping costs, and obtain detailed data that is difficult to measure through experiments. In this article, we will introduce application examples that can be useful for product development using Simerics' CAE/CFD software. To prevent a car from overheating, it is necessary to intake air into the engine room and cool various components, making the design of the grille shape and ventilation parts crucial. Additionally, the grille not only serves a cooling function but also represents the car's "face," making it an important aspect of its appearance. Despite being such an important part, designing it requires significant time and costs for prototyping and experimentation. CFD simulations can also become large-scale, often leading to longer computation times; however, with Simerics' CFD, high-performance flow analysis can be processed quickly through large-scale parallel computing, allowing for easy and rapid results. It also models the complex engine room in detail, recreating conditions close to actual experiments. This can lead to significant reductions in labor and costs! There are many more reasons to use Simerics' CFD software. Please check the link below or feel free to contact us!

  • simulator
  • Thermo-fluid analysis
  • Contract Analysis

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Simulation of a check valve using Simerics MP+.

Simulation of a check valve using Simerics MP+.

Introducing a simulation of a check valve (non-return valve) as an example of fluid analysis.

CFD provides detailed data that is difficult to obtain through experiments, helping to shorten product development periods and reduce prototyping costs. In this article, we will introduce application examples that can assist in product development using Simerics' CAE/CFD software. Check valves (non-return valves) play an important role in preventing water hammer and regulating flow direction. Research and development are ongoing daily to enhance the durability of piping. However, this requires spending a lot of cost and time on prototyping and testing the valves. Even when performing CFD simulations, setting up the mesh deformation associated with the opening and closing of flow paths can be quite cumbersome. With Simerics' CFD, high-performance template meshes are provided, and the movement and deformation of the computational mesh that occurs during calculations are fully automated, allowing anyone to easily and quickly generate meshes. This is expected to significantly reduce labor and costs! There are still many reasons to use Simerics' CFD software. You can view more details through the link below or feel free to contact us anytime!

  • simulator
  • Thermo-fluid analysis
  • Contract Analysis

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Simulation of a check valve using SimericsMP+.

Simulation of a check valve using SimericsMP+.

Introducing a simulation of a check valve (non-return valve) as an example of fluid analysis.

CFD provides detailed data that is difficult to obtain through experiments, helping to shorten product development periods and reduce prototyping costs. In this article, we will introduce application examples that can assist in product development using Simerics' CAE/CFD software. Check valves (non-return valves) play an important role in preventing water hammer and regulating flow direction. Research and development are ongoing daily to enhance the durability of piping. However, this requires spending a lot of time and costs on prototyping and testing the valves. Even when performing CFD simulations, setting up mesh deformation due to the opening and closing of flow paths can be quite cumbersome. With Simerics' CFD, high-performance template meshes are provided, and the movement and deformation of the computational mesh that occurs during calculations are fully automated, allowing anyone to easily and quickly generate meshes. This is expected to significantly reduce man-hours and costs! There are still many reasons to use Simerics' CFD software. You can find more details through the link below or feel free to contact us anytime!

  • simulator
  • Thermo-fluid analysis
  • Contract Analysis

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Simulation of a check valve using Simerics MP+.

Simulation of a check valve using Simerics MP+.

Introducing a simulation of a check valve (non-return valve) as a case study in fluid analysis.

CFD allows for the shortening of product development periods, reduction of prototyping costs, and acquisition of detailed data that is difficult to measure through experiments. In this article, we will introduce application examples that can be useful for product development using Simerics' CAE/CFD software. Check valves (non-return valves) play an important role in preventing water hammer and regulating flow direction. Research and development are ongoing daily to enhance the durability of piping. However, this requires spending a lot of time and costs on prototyping and testing the valves. Even when performing CFD simulations, setting up the mesh deformation associated with the opening and closing of flow paths can be quite labor-intensive. With Simerics' CFD, high-performance template meshes are provided, and the movement and deformation of the computational mesh that occurs during calculations are fully automated, allowing anyone to easily and quickly generate meshes. This is expected to significantly reduce man-hours and costs! There are many more reasons to use Simerics' CFD software. You can find more details through the link below or feel free to contact us anytime!

  • simulator
  • Thermo-fluid analysis
  • Contract Analysis

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Simulation of a check valve using SimericsMP+.

Simulation of a check valve using SimericsMP+.

Introducing a simulation of a check valve (non-return valve) as an example of fluid analysis.

CFD, which allows for the shortening of product development periods, reduction of prototyping costs, and acquisition of detailed data that is difficult to measure through experiments. In this article, we will introduce application examples that can be useful for product development using Simerics' CAE/CFD software. Check valves (non-return valves) play an important role in preventing water hammer and regulating flow direction. Research and development are ongoing daily to enhance the durability of piping. However, this requires spending a lot of cost and time on prototyping and testing the valves. Additionally, even when performing CFD simulations, setting up the mesh deformation associated with the opening and closing of flow paths can be quite cumbersome. With Simerics' CFD, high-performance template meshes are provided, and the movement and deformation of the computational mesh that occurs during calculations are fully automated, allowing anyone to easily and quickly generate meshes. This is expected to significantly reduce labor and costs! There are still many reasons to use Simerics' CFD software. You can find more details through the link below or feel free to contact us anytime!

  • simulator
  • Thermo-fluid analysis
  • Contract Analysis

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Simulation of a heat exchanger using SimericsMP.

Simulation of a heat exchanger using SimericsMP.

Introduction to the simulation of a shell-and-tube heat exchanger, an example of thermal fluid analysis.

CFD provides a means to shorten product development periods, reduce prototyping costs, and obtain detailed data that is difficult to measure through experiments. In this article, we will introduce application examples that can assist in product development using Simerics' CAE/CFD software. Heat exchangers have various applications, including boilers, steam generators, and commonly in air conditioners, refrigerators, and automotive radiators. While it is essential to enhance heat transfer efficiency, there is also a demand for miniaturization, requiring various trial and error in the design process. However, designing requires significant time and costs for prototyping and experiments. In CFD simulations, computation time can often increase depending on the shape of the shell and the number of tubes. However, with Simerics' CFD, high-performance thermal fluid analysis can be processed quickly through large-scale parallel computing, allowing for easy and rapid acquisition of results. The interior of the shell is also modeled in detail, replicating conditions close to actual experiments. This is expected to lead to significant reductions in man-hours and costs! There are many more reasons to use Simerics' CFD software. Please check the link below or feel free to contact us!

  • simulator
  • Thermo-fluid analysis
  • Contract Analysis

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