softのメーカーや取扱い企業、製品情報、参考価格、ランキングをまとめています。
イプロスは、 製造業 BtoB における情報を集めた国内最大級の技術データベースサイトです。

soft(cfd) - メーカー・企業と製品の一覧

更新日: 集計期間:Sep 03, 2025~Sep 30, 2025
※当サイトの各ページの閲覧回数を元に算出したランキングです。

softの製品一覧

151~165 件を表示 / 全 211 件

表示件数
Fidelity Pointwise

Fidelity Pointwise

We utilize industry-leading mesh generation technology and geometry modeling capabilities to achieve high-fidelity characterization of fluid domains.

Fidelity Pointwise not only boasts industry-leading CFD mesh generation capabilities. One of the biggest features of Fidelity Pointwise is its ability to integrate into any CFD simulation workflow. By pre-integrating with mesh export and import tools, as well as other powerful solvers and simulation tools, Fidelity Pointwise can enhance existing workflows.

  • pointwise-casing-mesh.jpg
  • pointwise-engine-mesh.jpg
  • Other CAD related software

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
Shape optimization of the rear wing using sensitivity analysis.

Shape optimization of the rear wing using sensitivity analysis.

The parametric model is created in CAESES, and the adjoint solutions obtained from the commercial CFD tool are mapped to the design variables!

In this case study, we conducted optimization regarding the drag and downforce (negative lift generated by a moving vehicle) of a sports car's rear wing. For this optimization, a parametric model of the rear wing was created using CAESES, and the adjoint solutions obtained from a commercial CFD tool were mapped to the design variables. *For more details, you can view the related links. Please feel free to download the PDF or contact us for more information.*

  • 12-2.png
  • 12-3.png
  • Other analysis software

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
Optimization of vessels

Optimization of vessels

The total hull resistance obtained after parametric modeling, CFD analysis, and optimization processing was reduced by 2 to 3%.

CAESES's hull parametric modeling, when combined with CFD software, facilitates the study of hull shapes (reducing resistance) and enables the design to optimize hull performance. The hull shape, particularly the forward shape, has a significant impact on hull resistance, making shape optimization crucial. With CAESES, hulls can be easily parameterized, allowing for straightforward adjustments to the hull shape. By generating multiple shape patterns and combining them with analysis tools, designs can be optimized according to various optimization objectives. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

  • 6370199815693877095633449.gif
  • 6370199819867683684716010.jpg
  • Software (middle, driver, security, etc.)
  • Other analyses

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
For DI compatibility of dissolution testing machines! Workstation software (DWS)

For DI compatibility of dissolution testing machines! Workstation software (DWS)

Management of test data, data integrity, dissolution testing software!

Since 2015, guidance on data integrity (DI) has been issued by the MHRA (UK Medicines and Healthcare products Regulatory Agency), WHO, FDA, and PIC/S, and its importance has been increasing in recent years. DI is defined as "the completeness, consistency, and accuracy of data. Data that is complete, consistent, and accurate is recorded with attributes of traceability, legibility, and contemporaneity, and is either original data or a true copy, and is accurate." It also ensures that pharmaceuticals meet the required quality standards. DWS is the optimal software for ensuring data integrity in dissolution testing. It supports access management, data tampering prevention, and backup, allowing for the management and control of dissolution testers and their peripheral devices with just this one software, making complex methods and data management easier to handle.

  • Dissolution Workstation_02.jpg
  • Dissolution Tester

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
Optimization of the piston bowl

Optimization of the piston bowl

In the development of engine combustion processes, 3D CFD analysis is an important tool!

Diesel engines need to focus on reducing fuel consumption while maintaining high performance standards. From this perspective, direct-injection turbo diesel engines are one attractive solution, and when developing these engines, reducing fuel consumption and maintaining high performance standards, along with reducing exhaust emissions, become important challenges. Both issues of fuel consumption and emissions can be addressed through mechanisms within the engine. In the development of the engine combustion process, 3D CFD analysis is an important tool that allows for the investigation of flow within the cylinder, the formation and combustion of the internal mixture, as well as the formation of exhaust products. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

  • 14-2.gif
  • 14-3.gif
  • 14-4.gif
  • 14-5.gif
  • 14-6.png
  • 14-7.png
  • 14-8.png
  • 14-9.png
  • 14-10.png
  • Other analysis software

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
Optimization of the poppet valve

Optimization of the poppet valve

This article explains the design system based on the collaboration between the CFD solver SimericsMP and CAESES, based on actual research conducted!

The Italian company OMIQ SRL, which sells software, conducted research on an automatic design system using the poppet valve of high-pressure pumps developed by the Danish machinery manufacturer Danfoss. In this case, we will introduce the design system that integrates the CFD solver SimericsMP with CAESES based on the research that was actually conducted. The issue in this case is that the poppet valve exhibits unacceptable unstable behavior during operation. It was found that when the poppet valve attempts to open to its maximum displacement (27.5 mm), the instability of the flow increases, resulting in a decrease in pressure on the poppet valve, ultimately preventing the valve from fully opening (closing to about 6 mm remaining). This unstable phenomenon was verified through unsteady analysis using SimericsMP. *For more detailed information, please refer to the related link. For further details, you can download the PDF or feel free to contact us.*

  • ポペットバルブの最適化2.png
  • ポペットバルブの最適化3.gif
  • ポペットバルブの最適化4.gif
  • ポペットバルブの最適化5.gif
  • ポペットバルブの最適化6.gif
  • ポペットバルブの最適化7.png
  • ポペットバルブの最適化8.png
  • ポペットバルブの最適化9.png
  • ポペットバルブの最適化10.png
  • valve

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
Optimization of the shape of the volute and diffuser of a centrifugal compressor.

Optimization of the shape of the volute and diffuser of a centrifugal compressor.

For shape creation, we use CAESES, and for mesh model creation and CFD analysis, we use products from NUMECA!

At the Technical University of Darmstadt in Germany (Institute of Gas Turbines and Aerospace Propulsion), research was conducted on the automatic optimization of the volute of centrifugal compressors and vane diffusers. This project was carried out in collaboration with NUMECA, a German company, and Kompressorenbau Bannewitz GmbH (KBB), a turbo machinery manufacturer. CAESES was used for shape creation, while NUMECA's products were utilized for mesh model creation and CFD analysis. In CAESES, a parametric model was created that allowed for variations in the cross-sectional shape and area distribution of the volute. For the diffuser, a non-axisymmetric design was implemented, enabling quick shape transformations by varying the misalignment angle, blade twist, chord length, pitch, and rotation through a parametric model. *For more detailed information, please refer to the related links. You can download the PDF for more details or feel free to contact us.*

  • 遠心圧縮機のボリュートとディフューザーの形状最適化2.png
  • Structural Analysis
  • Other analysis software

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
Torque converter shape optimization

Torque converter shape optimization

CAESES provides beneficial results across various fields, regardless of the products in question!

A torque converter for automobiles is a type of fluid coupling used in vehicles equipped with automatic transmissions to transmit rotational force from the engine to the drive shaft. Designers of torque converters work to minimize cavitation within the device and ensure good flow behavior of the transmission oil, aiming to maximize efficiency and torque ratio at high speeds. CAESES enables the modeling of such complex shapes and can build an optimization system that incorporates shape data into analysis software. By connecting CFD analysis software and proprietary CFD codes to CAESES, it analyzes flow behavior for each designed shape during optimization calculations and provides users with the optimal shape based on constraints. *For more detailed information, please refer to the related links. For further details, feel free to download the PDF or contact us.*

  • 13-2.png
  • Other analysis software

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
Turbo machinery design and analysis software package 'AxCent'

Turbo machinery design and analysis software package 'AxCent'

Centrifugal pumps, axial flow turbines, etc.! Wing shape designs subdivided into various turbo machinery configurations are possible.

"AxCent" is a product equipped with the functionality of turbo machinery geometry codes, strong in geometric design, and compatible with the design of single-stage/multi-stage turbo machinery. It allows for detailed airfoil design for various turbo machinery shapes such as centrifugal/inclined flow compressors, centrifugal pumps, and radial/inclined flow turbines. Fluid analysis (PushbuttonCFD) and structural analysis (PushbuttonFEA) can be performed on the AxCent GUI, and there is a feature for importing existing airfoil shapes (3D point cloud data). [Features] ■ Detailed airfoil design for various turbo machinery shapes ■ Calculation of blade surface load distribution using the Multi Stream Tube (MST) method ■ Semi-three-dimensional calculations using Blade-to-Blade and Through-flow methods ■ Output functionality to general-purpose fluid analysis software ■ Output to CAM software MAX-PAC for 5-axis machining of impellers *For more details, please refer to the related links or feel free to contact us.

  • Embedded system design service

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
Easy CFD on CAD 'Simerics MP for SW'

Easy CFD on CAD 'Simerics MP for SW'

Advanced analysis can be easily performed on SOLIDWORKS! For shortening development time and reducing costs!

"Simerics MP for SOLIDWORKS" is a CAD-integrated thermal fluid analysis software that can be operated within SOLIDWORKS. Integrated into the SOLIDWORKS GUI, designers can perform everything from design to analysis themselves. The calculation settings are also simple, allowing for quick mastery of the operation. By enabling designers to conduct various analyses that were traditionally outsourced, such as optimal shape consideration, problem identification, and performance verification, it leads to reduced development time, improved quality, and cost savings. 【Features】 ■ Supports a wide range of simulations including flow, turbulence, heat conduction, and convection ■ Automatically generates calculation meshes directly from CAD surfaces ■ Extremely fast, accurate, and robust solver ■ Stable iterative calculations for very challenging problems such as micro-meter scale shapes ■ Accurate calculation results that show excellent correlation with physical tests *For more details, please refer to the materials. Feel free to contact us with any inquiries.

  • Other analyses

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録
[Example] Flow Field Analysis [AICFD]

[Example] Flow Field Analysis [AICFD]

Explanation of valve pressure loss analysis and examples of automotive aerodynamic analysis!

We would like to introduce application examples of flow field analysis using our intelligent thermal fluid analysis software "AICFD." This software enables efficient simulation of fluid flow and heat transfer, developed by our company. It can be applied to pressure loss analysis of valves, which require higher stability, convergence, and accuracy due to the presence of many small pressure relief holes in the valves. You can check the details of the case studies through the related links. 【Case Overview (Partial)】 ■ Pressure Loss Analysis of Valves - Pressure loss analysis of valves is one of the typical cases in CFD. - Higher stability, convergence, and accuracy are required due to the presence of many small pressure relief holes in the valves. - The boundary conditions used are an inlet velocity condition of 10.69 (m/s) and an outlet static pressure condition. *For more details, please download the PDF or feel free to contact us.

  • 流れ場解析2.PNG
  • 流れ場解析3.PNG
  • 流れ場解析4.PNG
  • Thermo-fluid analysis software

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

無料会員登録

softに関連する検索キーワード

COPYRIGHT © 2001-2025 IPROS CORPORATION ALL RIGHTS RESERVED.