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soft Product List

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[Case Study] Cooling Analysis of Electric Vehicle Motors 'AICFD'

[Case Study] Cooling Analysis of Electric Vehicle Motors 'AICFD'

Control heat through cooling analysis! Supporting innovative product development that exceeds design limits!

We will introduce a case study on cooling analysis of motors for electric vehicles using the general-purpose intelligent thermal fluid analysis software AICFD. As the adoption of electric vehicles accelerates, there is a demand for the development of more efficient and high-performance drive motors. Improving motor performance involves factors such as optimizing energy conversion efficiency and reducing weight, among which thermal management is a key element. The heat generated inside the motor can not only lead to a decrease in output and efficiency but also significantly impact durability and long-term reliability. Therefore, it is essential to implement appropriate cooling design and achieve efficient thermal control. In this analysis, we examined the temperature distribution around the coils, which are the main heat sources within the electric vehicle motor, and evaluated the cooling performance. By visualizing the temperature distribution obtained through simulation, we can confirm the effectiveness of the cooling design. *For more details, please download the PDF or feel free to contact us.*

  • simulator
  • Thermo-fluid analysis
  • soft

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[Case Study] Performance Analysis of Centrifugal Pumps 'AICFD'

[Case Study] Performance Analysis of Centrifugal Pumps 'AICFD'

Improving the performance of centrifugal pumps! A case study applying general-purpose thermal fluid analysis software.

We would like to present a case study where the general-purpose thermal fluid analysis software "AICFD" was used to analyze the head and shaft power of a centrifugal pump, comparing the results with experimental values. The mesh model adopted an unstructured mesh with a total cell count of 1.2 million. When comparing the experimental values with the analysis results, a deviation of 1.70% was confirmed for both output (kW) and head (m). 【Analysis Conditions】 ■ Inlet Condition: 69.46 [L/s] ■ Outlet Condition: Static Pressure 0 [Pa] ■ Rotational Speed: 980 [RPM] ■ Turbulence Model: Standard k-epsilon *For more details, please download the PDF or feel free to contact us.

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[Case Study] Cooling Performance Analysis of Water-Cooled Plates 'AICFD'

[Case Study] Cooling Performance Analysis of Water-Cooled Plates 'AICFD'

We will introduce a case where two heat sources were installed on a cooling plate and the cooling performance was evaluated.

We would like to introduce a case study analyzing the cooling performance of a water-cooled plate using the general-purpose thermal fluid analysis software "AICFD." Two heat sources (silicon chips) were installed on the cooling plate (aluminum alloy) to evaluate its cooling performance. Our company offers a wide range of services, including product design, simulation analysis, performance optimization, customization development of software and platforms, and secondary development of commercial software. 【Analysis Conditions】 ■ Inlet Conditions: Velocity 0.2 [m/s], Temperature 25 [℃] ■ Turbulence Model: Laminar Flow ■ Heat Generation ・Heat Source 1: 40 [W] ・Heat Source 2: 60 [W] ■ Thermal Resistance: 0.25 [K/W], 0.167 [K/W] *For more details, please download the PDF or feel free to contact us.

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[Case Study] AI-Accelerated Analysis of Guide Vane Pumps 'AICFD'

[Case Study] AI-Accelerated Analysis of Guide Vane Pumps 'AICFD'

A case study utilizing the unique feature of AI acceleration! Reducing iterations and achieving efficient analysis.

We would like to introduce the AI-accelerated analysis of a guide vane pump using the general-purpose thermal fluid analysis software "AICFD." In multi-domain and rotating machinery analysis cases, we utilize the unique AI acceleration feature of this product. By reducing the number of iterations required for calculations through AI acceleration, we achieve efficient analysis. In this case study, we were able to achieve a 27% reduction in computation time without compromising accuracy. 【Analysis Conditions】 ■ Mesh Model: Unstructured Grid 2.1 million ■ Inlet Velocity: 4.49 m/s ■ Turbulence Model: SST k-ω ■ Iterations: 5000 *For more details, please download the PDF or feel free to contact us.

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Thermal Fluid Simulation Software 'AICFD'

Thermal Fluid Simulation Software 'AICFD'

Simple and intuitive operability! Achieving improved computational efficiency through AI algorithms.

"AICFD" is a thermal fluid analysis software designed to efficiently analyze complex flow and heat transfer problems in the fields of energy, shipping, electronics, and automobiles. It covers the entire simulation process and contributes to the establishment of optimal design processes and the improvement of development efficiency. It provides graphical setup operations that significantly reduce the user's burden. 【Features】 ■ Simple and intuitive operability ■ Improved computational efficiency through AI algorithms ■ Intelligent predictive analysis ■ Dedicated modules for specific areas *For more details, please refer to the PDF materials or feel free to contact us.

  • Thermo-fluid analysis
  • soft

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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
  • Other analysis software
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[Case Study] Combustion Analysis of Corn Burners 'AICFD'

[Case Study] Combustion Analysis of Corn Burners 'AICFD'

Efficiently solving complex flow and heat transfer problems! Case study of combustion analysis of a conical burner.

We would like to introduce a combustion analysis case of a conical burner using the general-purpose thermal fluid analysis software "AICFD." The analysis conditions include a turbulence model of the standard k-ε model, a fluid mixture, and a combustion model such as Species Transport. This product comprehensively covers the process from creating the analysis model, simulation, to result processing, supporting the improvement of research and development efficiency. 【Analysis Conditions (Partial)】 ■ Inlet Conditions: - 60 [m/s] - CH4 (mass percent: 3.4%) - O2 (mass percent: 22.5%) - N2 (mass percent: 74.1%) *For more details, please download the PDF or feel free to contact us.

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[Case Study] Water Cooling Analysis of IGBT Module 'AICFD'

[Case Study] Water Cooling Analysis of IGBT Module 'AICFD'

You can understand the pressure loss of the heat sink water jacket!

We will introduce a case study analyzing the cooling performance of a water-cooled IGBT module using the general-purpose thermal fluid analysis software "AICFD." The model being analyzed is a simplified version, representing 1/6 of the original module. Additionally, a water-cooled heat sink has been added to the underside of the substrate, and the mesh model consists of 8.78 million unstructured cells. By conducting such analyses, we can understand the pressure loss of the heat sink water jacket and the cooling state of the module, which provides valuable information for thermal design and thermal countermeasures. 【Boundary Conditions】 ■ Inlet Velocity (m/s): 8.0 ■ Inlet Water Temperature (K): 295.14 ■ Water Side Heat Exchange Area (m²): 4.062×10^-3 *For more details, please download the PDF or feel free to contact us.

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[Heat-Fluid-Structure Coupling Example] Cooling of a Metal Pipe

[Heat-Fluid-Structure Coupling Example] Cooling of a Metal Pipe

Cooling water absorbs heat from the metal pipe while flowing! The solver uses the high-precision version R10.1.0 of MPPDYNA.

We will introduce a case where cold water is flowed through a high-temperature metal pipe for cooling, analyzed as a thermal-fluid-structure coupled problem. The solver used is the R10.1.0 high-precision version of MPPDYNA, with parallel computation on 16 CPUs. As a result, the metal pipe is cooled and the temperature decreases, while the cooling water absorbs heat from the metal pipe as it flows, resulting in higher temperatures downstream. Additionally, the temperature at the surface in contact with the solid becomes higher than that on the inside, and in the final state, the temperature of the metal pipe approaches the temperature of the fluid (283.15[K]). 【Key Keywords】 ■*ICFD_BOUNDARY_FSI: Specify the fluid-structure coupling boundary ■*ICFD_CONTROL_FSI: Set default values for fluid-structure coupled analysis ■*ICFD_BOUNDARY_CONJ_HEAT: Perform heat exchange with the solid at the fluid-structure coupling boundary ■Other: Input *CONTROL_SOLUTION, soln=2 to set up thermal-structure coupled analysis *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
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Data analysis software "ValSuite"

Data analysis software "ValSuite"

FDA CFR Part 11 compliant! Data analysis software with Japanese support!

"ValSuite" is a data analysis software developed by the Danish company Elab. It supports both TrackSense and E-Val Flex, displaying graphs simultaneously with data loading, allowing for quick data collection and analysis, automatic F-value calculation, and report generation. You can choose the appropriate software from "ValSuite Basic" for the food industry and industrial sector, or "ValSuite Pro," which is compliant with FDA CFR Part 11 for pharmaceutical companies. 【Features】 ■ FDA CFR Part 11 compliant (Pro version) ■ Japanese language support ■ Various data analysis functions included ■ Common to TrackSense Pro logger, E-Val Flex, and E-Val Pro ■ Available app for smartphones and tablets that can be linked with the software *For more details, please refer to the PDF materials or feel free to contact us.

  • Other measurement, recording and measuring instruments
  • Temperature and humidity measuring instruments
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[Example] Turbo Machinery 'AICFD'

[Example] Turbo Machinery 'AICFD'

Application of performance analysis of centrifugal pumps that leads to the reduction of social pressure on energy demand!

We would like to introduce an application case of our intelligent thermal fluid analysis software "AICFD" for turbomachinery. This software covers the entire analysis process from the ometric model to result evaluation. It can be applied to analyze the internal flow field of axial fans, allowing us to obtain a wealth of data necessary to improve fan performance. You can check the details of the case from the related link. 【Case Overview (Partial)】 ■ Efficiency analysis of an axial fan (one pitch) - Analyzing the internal flow field of the axial fan provides a wealth of data necessary to improve fan performance. - The model consists of two components: the outlet guide vane flow path and the rotor flow path, analyzing the flow field and fan efficiency with an inlet velocity of 15.06 (m/s). *For more details, please download the PDF or feel free to contact us.

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  • Thermo-fluid analysis software
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Form Filling Formation Analysis Code SeeFOAM-CPFD

Form Filling Formation Analysis Code SeeFOAM-CPFD

Accurately predict the position of blood vessels in the product's form pattern.

This is a casting engineering software that simulates the modeling of lost foam pattern pouring formation.

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[Example] AI Predictive Analysis and AI High-Speed Analysis 'AICFD'

[Example] AI Predictive Analysis and AI High-Speed Analysis 'AICFD'

A case where the internal flow field and temperature distribution of the battery pack were predicted with one click!

We would like to introduce the application examples of AI predictive analysis and AI high-speed analysis of our intelligent thermal fluid analysis software "AICFD." This software supports the establishment of a design process that combines design, analysis, and optimization in industrial fields, significantly improving the efficiency of product development. It performs aerodynamic analysis of automobiles using the AI-accelerated analysis function, comparing three cases including the standard analysis results. You can check the detailed content of the case studies through the related links. 【Case Overview (Partial)】 ■ AI Predictive Analysis of Battery Pack Flow Field Temperature - Based on 10 sets of analysis samples in the opposing wind speed range of 10 to 30 (m/s), it predicts the internal flow field and temperature distribution of the battery pack at an opposing wind speed of 20 (m/s) with one click. - The results of the predictive analysis are compared with the results of the standard method. *For more details, please download the PDF or feel free to contact us.

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  • Thermo-fluid analysis software
  • soft

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[Example] Electronic Device Heat Dissipation 'AICFD'

[Example] Electronic Device Heat Dissipation 'AICFD'

Application in conjugate heat conduction analysis for electronic component heat dissipation and battery pack cooling analysis for new energy vehicles!

We would like to introduce application examples of our intelligent thermal fluid analysis software "AICFD" for electronic device heat dissipation. This software provides user-friendly and high-performance simulations through an advanced graphical interface. It can be applied to cooling analysis of battery packs, which are widely used in fields such as electric vehicles, mobile devices, and energy storage. Improving the performance of battery packs can be crucial. You can check the details of the case studies through the related links. 【Case Overview (Partial)】 ■ Conjugate heat conduction analysis for electronic component heat dissipation - Heat dissipation analysis of electronic components within a casing, using laminar flow for conjugate heat conduction analysis - Memory chips are located next to the CPU unit, and various sizes of capacitors, chips, and interfaces are embedded on the motherboard - The radiator is positioned above the CPU, transferring heat from the CPU to the cooling air *For more details, please download the PDF or feel free to contact us.

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  • Thermo-fluid analysis software
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Analysis of pressure loss and cooling in energy storage converters.

Analysis of pressure loss and cooling in energy storage converters.

A comparison was made between the temperature and pressure results obtained from AICFD and the reference results.

Using the general-purpose thermal fluid analysis software AICFD, we will analyze the pressure loss and cooling performance of the energy storage converter. We will conduct an analysis that includes a cooling fan, and check the internal flow field and the temperature conditions of the mounted IGBTs. The mesh model to be analyzed consists of 2 inlets and 3 outlets, with boundary conditions assigned. *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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  • Thermo-fluid analysis
  • Thermo-fluid analysis software
  • soft

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Case study of fluid analysis for a two-axis screw compressor.

Case study of fluid analysis for a two-axis screw compressor.

Introduction to a fluid analysis simulation of a two-axis screw compressor using SimericsMP+ and SCORG, as a case study in thermal fluid analysis.

CFD allows for the shortening of product development periods, reduction of prototype 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. Two-axis screw compressors have applications in refrigeration and air conditioning-related fields, including air conditioners and refrigerators. In the design process, significant costs and time must be spent on prototyping and experiments. With Simerics' CFD, high-performance thermal fluid analysis can be processed quickly through large-scale parallel computing, yielding results easily and rapidly. Additionally, the cooling lubricants are analyzed using the VOF method, recreating 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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Thermal Fluid Simulation Software 'AICFD'

Thermal Fluid Simulation Software 'AICFD'

【Annual rental of 1.5 million yen including maintenance】Contributes to the efficiency of analysis work with high-speed processing by AI and easy GUI operation. *Presenting the "Thermal Fluid Analysis Case Collection"!

"AICFD" is software that achieves high-precision simulations while reducing the workload associated with thermal fluid analysis through an intuitively operable GUI and AI-assisted features. It addresses the challenges faced by users of conventional software, such as "complex mesh creation, difficult analysis settings, and slow computation speeds," allowing engineers to focus on their core tasks and streamlining the iterative process of product design. Additionally, it is equipped with predictive analysis for flow fields and dedicated modules for turbo machinery and electronic device cooling, strongly supporting applications across various fields such as automotive, electronics, industrial machinery, and marine. 【Features】 ■ High cost performance at an annual rental of 1.5 million yen (excluding tax) ■ Integrated GUI covering the entire analysis process ■ Incorporation of AI predictive models utilizing existing results ■ Mesh creation by AI, enabling analysis that does not rely on experience ■ Intelligent features that provide setting support in a Q&A format * We are currently offering a "Thermal Fluid Analysis Case Study Collection"! For more details, please refer to the materials or feel free to contact us.

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  • Thermo-fluid analysis software
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Non-destructive testing simulation software "CIVA"

Non-destructive testing simulation software "CIVA"

Ultrasonic Testing (UT), Guided Wave Testing (GWT), Eddy Current Testing (ET), and X-ray/CT (RT・CT), among these, suitable inspection methods for diagnosis (free demo).

CIVA is a non-destructive testing simulation software. It can perform flaw detection simulations using four methods: UT, RT/CT, GWT, and ET. 【Features】 - Ultrasonic Testing (UT) - Simulation of probe beam propagation (Single probe, phased array probe, E-MAT) - Simulation of beam propagation within the test specimen (Pulse-echo, tandem, TOFD) - Materials (Metal materials, CFRP, concrete, acoustic anisotropic materials, etc.) - Radiation testing can be performed using both RT and CT. - It also supports guided waves and eddy currents. CIVA is currently used by over 170 companies, research institutes, and universities in 35 countries. It is applied in many fields, including aerospace, railway transportation, steel and metal, and fuel resources. *We also offer free demos and on-site demonstrations, so please feel free to contact us.

  • Testing Equipment and Devices
  • Other measurement, recording and measuring instruments
  • Software (middle, driver, security, etc.)
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2-axis screw compressor flow analysis mesh generator 'SCORG'

2-axis screw compressor flow analysis mesh generator 'SCORG'

SCORG is a measurement software for the design and analysis of screw compressors, expanders, pumps, and motors.

Our strength lies in the ability to generate meshes for various computational fluid dynamics (CFD) software. For example, we can integrate with most commercial CFD solvers such as Simerics MP, Ansys CFX, and STAR-CCM+, as well as engineering software. We can create complex meshes for screw compressors without being dependent on the solver. By using SCORG solely for the creation of complex meshes like those for two-axis screw pumps and compressors while continuing to use your familiar solver, you can significantly reduce the tedious effort involved in analysis. Additionally, you can perform simulations leveraging existing know-how without having to learn a new solver, which greatly reduces both the effort and cost compared to switching solvers. Furthermore, we have presented a case study on fluid analysis (CFD) of two-axis screw compressors at the Japan Society of Refrigerating and Air Conditioning Engineers. Please contact us for more details.

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  • Thermo-fluid analysis
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Screw compressor mesher "SCORG"

Screw compressor mesher "SCORG"

SCORG is a measurement software for the design and analysis of screw compressors, expanders, pumps, and motors.

Our strength lies in the ability to generate meshes for various computational fluid dynamics (CFD) software. For example, we can integrate with most commercial CFD solvers such as Simerics MP, Ansys CFX, and STAR-CCM+, as well as engineering software. We can create meshes for complex screw compressors without being constrained by the solver. By using SCORG solely for the creation of complex meshes like those for two-axis screw pumps and compressors while continuing to use your familiar solver, you can significantly reduce the tedious effort involved in analysis. Additionally, you can perform simulations leveraging existing know-how without the need to learn a new solver, which greatly reduces both effort and costs compared to switching solvers. We also have a case study on fluid analysis (CFD) of a two-axis screw compressor that we presented at the Japan Society of Refrigerating and Air Conditioning Engineers. Please contact us for more details.

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  • Thermo-fluid analysis
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Screw pump meter "SCORG"

Screw pump meter "SCORG"

SCORG is a measurement software for the design and analysis of screw compressors, expanders, pumps, and motors.

Our strength lies in the ability to generate meshes for various computational fluid dynamics (CFD) software. For example, we can integrate with most commercial CFD solvers such as Simerics MP, Ansys CFX, and STAR-CCM+, as well as engineering software. We can create meshes for complex screw compressors without being limited by the solver. By using SCORG solely for the creation of complex meshes like those for two-axis screw pumps and compressors while continuing to use your familiar solver, you can significantly reduce the cumbersome effort involved in analysis. Additionally, you can conduct simulations leveraging existing know-how without having to learn a new solver, which drastically reduces both effort and costs compared to switching solvers. Furthermore, we have presented a case study on fluid analysis (CFD) of a two-axis screw compressor at the Japan Society of Refrigerating and Air Conditioning Engineers. For more details, please contact us.

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  • Thermo-fluid analysis
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Screw compressor mesher "SCORG"

Screw compressor mesher "SCORG"

SCORG is a measurement software for the design and analysis of screw compressors, expanders, pumps, and motors.

Our strength lies in the ability to generate meshes for various computational fluid dynamics (CFD) software. For example, we can integrate with most commercial CFD solvers such as Simerics MP, Ansys CFX, and STAR-CCM+, as well as engineering software. We can create complex meshes for screw compressors without being dependent on the solver. By using SCORG solely for the creation of complex meshes like those for twin-screw pumps and compressors while continuing to use your familiar solver, you can significantly reduce the cumbersome effort involved in analysis. Additionally, you can perform simulations by leveraging existing know-how without having to learn a new solver, which drastically reduces both the effort and cost compared to switching solvers. We also have a case study on fluid analysis (CFD) of twin-screw compressors that we presented at the Japan Society of Refrigerating and Air Conditioning Engineers. Please contact us for more details.

  • simulator
  • Thermo-fluid analysis
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2-axis screw compressor flow analysis mesh generator 'SCORG'

2-axis screw compressor flow analysis mesh generator 'SCORG'

SCORG is a measurement software for the design and analysis of screw compressors, expanders, pumps, and motors.

Our strength lies in the ability to generate meshes for various computational fluid dynamics (CFD) software. For example, we can integrate with most commercial CFD solvers such as Simerics MP, Ansys CFX, and STAR-CCM+, as well as engineering software. We can create meshes for complex screw compressors without being influenced by the solver. By using SCORG solely for the creation of complex meshes, such as for two-axis screw pumps and compressors, while still utilizing your familiar solver, you can significantly reduce the cumbersome effort involved in analysis. Additionally, you can perform simulations by leveraging existing know-how without having to learn a new solver, which greatly reduces both effort and costs compared to switching solvers. Furthermore, we have a case study on fluid analysis (CFD) of a two-axis screw compressor that we presented at the Japan Society of Refrigerating and Air Conditioning Engineers. Please contact us for more details.

  • simulator
  • Thermo-fluid analysis
  • Contract Analysis
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Screw pump meter "SCORG"

Screw pump meter "SCORG"

SCORG is a measurement software for the design and analysis of screw compressors, expanders, pumps, and motors.

Our strength lies in the ability to generate meshes for various computational fluid dynamics (CFD) software. For example, we can integrate with most commercial CFD solvers such as Simerics MP, Ansys CFX, and STAR-CCM+, as well as engineering software. We can create complex meshes for screw compressors without being influenced by the solver. By using SCORG solely for the creation of complex meshes like those for two-axis screw pumps and compressors while continuing to use your familiar solver, you can significantly reduce the cumbersome effort involved in analysis. Additionally, you can conduct simulations leveraging existing know-how without the need to learn a new solver, which greatly reduces both effort and costs compared to switching solvers. Furthermore, we have presented a case study on fluid analysis (CFD) of a two-axis screw compressor at the Japan Society of Refrigerating and Air Conditioning Engineers. Please contact us for more details.

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  • Thermo-fluid analysis
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