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Analysis Product List

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Today's ANSYS: Analysis of Water Purification Treatment Using Ultraviolet Sterilization Equipment

Today's ANSYS: Analysis of Water Purification Treatment Using Ultraviolet Sterilization Equipment

Introduction to the analysis of water purification treatment using ultraviolet sterilization devices.

I would like to introduce information that highlights how CAE and CFD are beneficial to society, along with interesting application examples, primarily through articles from the information magazine "ADVANTAGE" published by ANSYS, Inc. and ANSYS Japan Co., Ltd. This time, I will present an analysis of water purification treatment using ultraviolet sterilization devices. ANSYS Fluent is equipped with numerous radiation models, and in this case, we will simulate using the Discrete Ordinates (DO) model and model various microorganisms with DPM (Discrete Phase Model), which is a somewhat unique example. When I first saw this case, I thought it might not fall within the realm of CFD (Computational Fluid Dynamics), but depending on how it is used, there seems to be potential for increased applications. We will incorporate the total amount of ultraviolet light (UV Dose) that bacteria receive while flowing through the ultraviolet sterilization device using a User Defined Function (UDF). In the drinking water supply that we use in our daily lives, ultraviolet irradiation devices are reportedly always used for sterilization (to kill chlorine-resistant bacteria such as Cryptosporidium). In other words, if we could improve the sterilization efficiency by even an average of 1% at the countless water purification plants across the country, it would result in a very significant effect.

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  • Development support tools (ICE, emulators, debuggers, etc.)
  • simulator
  • Other analyses

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Analysis of Pressure Loss in the Engine Intake Port【AICFD】

Analysis of Pressure Loss in the Engine Intake Port【AICFD】

By checking the state of the velocity field, we can evaluate what kind of flow is occurring internally!

The intake port is a crucial component of the intake system in automotive engines and has a significant impact on the mixing of air and fuel. In the early stages of design, the intake volume and pressure loss are evaluated in advance using CFD analysis to optimize the design. In this case study, the pressure loss of the intake port will be analyzed based on the conditions of inlet total pressure and outlet static pressure, and accuracy verification will be conducted by comparing the results with reference values. *For more detailed information, please refer to the related links. For further inquiries, feel free to download the PDF or contact us.

  • Other analysis software

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Performance Analysis of Rotor37 Compressor

Performance Analysis of Rotor37 Compressor

The analysis results were compared with reference values, and temperature, total pressure, and efficiency were evaluated.

Using the general-purpose thermal fluid analysis software AICFD, we will conduct a performance analysis of the Rotor37 compressor. Rotor37 is a classic case of CFD compressible fluid calculations and is often used to verify the software's performance in the flow problem around the blades of a transonic axial compressor. We will analyze the three-dimensional flow characteristics of the compressor rotor, focusing on rotating machinery with practical engineering backgrounds derived from research results by NASA. *For more detailed information, please refer to the related links. For further inquiries, feel free to download the PDF or contact us directly.*

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  • Thermo-fluid analysis

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TCAE CAA analysis of NACA0012

TCAE CAA analysis of NACA0012

The mesh model used has eight boundary layers created with TCAE's SnappyHexMesh.

Comprehensive engineering simulation software with unlimited licensing This article introduces CAA analysis of NACA airfoils using TCAE. This project focuses on the NACA 0012 airfoil BANCIIIc3 benchmark [1] (3D code: 0.4[m], span: 10%) and delves into the field of computational aeroacoustics (CAA). By adopting advanced techniques such as acoustic analogy and Ffowcs Williams-Hawkings, we explore unsteady simulations with a physical time of 1[s] through finite volume CFD simulations in a cell-centered framework. *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

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Thermal fluid analysis in the design of electronic devices.

Thermal fluid analysis in the design of electronic devices.

Streamline the design process to reduce the number of prototypes and costs!

The thermal fluid analysis by SRC allows for direct integration of 3D CAD and thermal fluid analysis software through 3D design, enabling the reflection of CFD (Computational Fluid Dynamics) results from the initial design stage. Verification of temperature fields and flow fields contributes to the efficiency of the design process related to thermal issues, reducing the number of iterations and costs. For more details, please download the catalog or contact us.

  • Embedded Board Computers
  • Other embedded systems (software and hardware)

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AICFD: Heat Dissipation Analysis of Air-Cooled Motors

AICFD: Heat Dissipation Analysis of Air-Cooled Motors

Conducted heat dissipation simulation of air-cooled motors using AICFD and performed validation of the analysis results!

In the modern industrial sector, motors are utilized as essential power sources across various industries. To maintain the normal operation of motors, it is crucial to prevent overheating, and in the case of air-cooled motors, appropriate heat dissipation design is directly linked to reliability and performance. The thermal fluid analysis software AICFD addresses such challenges and provides a tool for achieving proper thermal design with easy operability and efficient data acquisition. In this article, we conducted a heat dissipation simulation for air-cooled motors using AICFD and validated the analysis results. *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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  • Other analysis software

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[AICFD] Analysis of Pressure Loss in the Intake Manifold

[AICFD] Analysis of Pressure Loss in the Intake Manifold

The error in pressure loss is about 2%, demonstrating that the computational capability of AICFD is effective!

The pressure loss in the intake manifold and the uniformity of the flow rates in each pipe are important factors for the engine's output and performance. In this analysis, we will examine the flow inside the manifold of a 4-cylinder automotive engine, as well as the pressure loss and flow velocity distribution in the branch pipes. *For detailed content of the article, please refer to the related links. For more information, you can download the PDF or feel free to contact us.*

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  • Other analysis software

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AICFD M6 Wing Transonic Flow Analysis

AICFD M6 Wing Transonic Flow Analysis

The analysis conditions adopt Mach number, angle of attack, and Reynolds number. A comparison of the wing surface pressure coefficient distribution is also conducted.

Using the general-purpose thermal fluid analysis software AICFD, we will conduct a transonic analysis of the M6 wing. The M6 wing is a classical test case for studying transonic flow and is a semi-infinite airfoil designed by the French aerospace research institute ONERA. The M6 wing exhibits typical transonic airfoil characteristics, such as shock waves that appear on the wing under specific conditions and expansion waves behind the shock waves. *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 analyses
  • Thermo-fluid analysis
  • Thermo-fluid analysis software

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[AICFD] AI Predictive Analysis of Cabin Comfort

[AICFD] AI Predictive Analysis of Cabin Comfort

Predict the flow field and maximum velocity when the airflow velocity at the air conditioning outlet (inlet) is 2 m/s!

The comfort inside the vehicle is influenced by many factors based on environmental conditions such as the temperature of the airflow and the flow of air from the air conditioning. To create a more comfortable space for the people present, starting with the vehicle's air conditioning, it is necessary to evaluate the repeated design of the air conditioning vents and the thermal comfort and energy efficiency of the interior under various conditions at the conceptual design stage. This requires understanding the indoor conditions through simulations and pre-validation through numerous parameter studies, making the prediction of flow fields under specific conditions using AI technology effective. In this analysis, we evaluated the flow field and maximum velocity under specific conditions using the AI prediction function incorporated in AICFD. We also compared the results with those from conventional analyses to verify the effectiveness of the AI prediction function. *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 analysis software

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AICFD Large Truck Aerodynamic Analysis

AICFD Large Truck Aerodynamic Analysis

The analysis results visualize the static pressure distribution on the model surface, allowing for an understanding of pressure fluctuations!

This analysis examines the drag and pressure distribution that occurs on the body of a large truck under specific conditions. Under the condition where air flows at a speed of 20 [m/s] from the inlet boundary, we will evaluate the impact on the truck's body. By using simulations to confirm the drag coefficient and the state of the flow field, we can obtain information that leads to improved fuel efficiency by understanding the airflow and resistance around the truck. *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 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

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[AICFD] Cooling Analysis of Battery Packs for New Energy Vehicles

[AICFD] Cooling Analysis of Battery Packs for New Energy Vehicles

Using a porous media model! Create and evaluate the temperature distribution map on the model surface and the temperature distribution map of the central cross-section.

Battery packs are currently widely used in electric vehicles, smartphones, and energy storage technologies, and in such systems, improving the performance of battery packs often becomes the key to product enhancement. In this analysis, we will evaluate the heat dissipation and air cooling effects of a battery module for electric vehicles using a porous medium model instead of a heat sink, and assess the temperature results. As analysis conditions, we set the inlet flow velocity to 5 [m/s] and the outlet static pressure to 0 [Pa], applying the porous medium model to the fins of the heat sink. *For more detailed information, you can view the related links. For further details, please download the PDF or feel free to contact us.*

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