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Analysis Product List and Ranking from 376 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

Analysis Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. アイテス Shiga//Electronic Components and Semiconductors
  2. ヒューリンクス Tokyo//software
  3. 中電シーティーアイ 本社 Aichi//Service Industry
  4. 4 一般財団法人材料科学技術振興財団 MST Tokyo//Testing, Analysis and Measurement
  5. 5 null/null
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Analysis Product ranking

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. Graph Creation and Data Analysis for Researchers: KaleidaGraph ヒューリンクス
  2. DAXON Reaction Tank Impact Analysis Service *Introduction Materials Available 中電シーティーアイ 本社
  3. Specification verification and failure analysis through reliability testing. アイテス
  4. 4 Dad's factory DX solution promoting manufacturing.
  5. 5 Food-grade twin-screw extruder 'TEX-F'

Analysis Product List

61~90 item / All 1052 items

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[Case Study of Thermal Fluid Analysis] Retention Analysis in a Water Tank

[Case Study of Thermal Fluid Analysis] Retention Analysis in a Water Tank

Utilize the general-purpose thermal fluid analysis software AcuSolve! It allows you to visualize the flow conditions within a tank.

This article introduces a case study of retention analysis within a tank. Using the general-purpose thermal fluid analysis software AcuSolve, we will conduct a circulation analysis of the solvent located under a rotating roll in the tank. By calculating the flow field within the tank, we can confirm the cycle in which the solvent is replaced and identify the areas where old solvent remains in the tank. 【Contents】 ■ Overview ■ Analysis Results ■ Summary *Detailed information about the case study can be viewed through the related links. For more information, please feel free to contact us.

  • Software (middle, driver, security, etc.)
  • Analysis

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[Heat Fluid Analysis Case] Stirring Analysis

[Heat Fluid Analysis Case] Stirring Analysis

We conducted a stirring analysis and investigated the impact of blade installation angle on stirring efficiency!

In this article, we introduce a case study on mixing analysis. Using the general-purpose fluid analysis software AcuSolve, we conducted a mixing analysis and investigated the impact of blade installation angles on mixing efficiency. A four-blade mixer was placed in the mixing container and rotated at a constant angular velocity. The lower half of the fluid was colored, and we examined the changes in mixing efficiency for blade installation angles of 30 degrees and 70 degrees. Under these analysis conditions, it was concluded that a blade installation angle of 70 degrees results in superior mixing efficiency. [Contents] ■ Overview ■ Analysis Results ■ Indicators of Mixing Efficiency *Detailed information about the case study can be viewed through the related links. For more information, please feel free to contact us.

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[Case Study of Thermal Fluid Analysis] Air Conditioning Analysis

[Case Study of Thermal Fluid Analysis] Air Conditioning Analysis

You can verify the installation location of the floor ventilation panels by conducting thermal fluid analysis!

This article introduces examples of air conditioning analysis. By defining the pressure loss as solid on the floor slab, we model the ventilation panels. We can verify the appropriate placement of server racks, the set temperature and airflow of the air conditioning units, and the installation locations of the floor ventilation panels through thermal fluid analysis. [Contents] ■ Model Description (Data Center Analysis) ■ Data Center Modeling ■ Analysis Results *Detailed information on the case study can be viewed through the related links. For more details, please feel free to contact us.

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[Technical Column] A Gentle Review of CAE Part 1: "Equilibrium of Forces"

[Technical Column] A Gentle Review of CAE Part 1: "Equilibrium of Forces"

An explanation targeting fields handled by CAE analysis, such as structures, heat, and fluids! Introducing the fundamental concept of "force equilibrium."

This is a series that focuses on things we often overlook in our daily lives, explaining their behavior, functions, phenomena, and principles in an easy-to-understand manner. In this column, we will cover fields related to CAE analysis, such as structure, heat, and fluids. We will explain the fundamental concept of "force equilibrium," which is essential for solving problems where forces are acting yet the system remains at rest, as well as problems where the relative positions of objects do not change (statics). [Content] ■ Episode 1 Theme: "Force Equilibrium" ■ "Force Equilibrium" in Everyday Problems ■ Aesthetically Pleasing "Force Equilibrium" *For more details about the column, please refer to the related links. Feel free to contact us for more information.

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[Technical Column] Fluid Analysis of Butterfly Flapping Motion

[Technical Column] Fluid Analysis of Butterfly Flapping Motion

Reproducing butterfly motion with a mechanism analysis model in MotionSolve! Performing fluid calculations with AcuSolve.

Altair AcuSolve (hereinafter referred to as AcuSolve) is a general-purpose thermal fluid analysis software that uses the finite element method. By using AcuSolve alone or in combination with other solvers, fluid-structure coupled analysis is possible. In this article, we will introduce a case of coupled analysis using AcuSolve and the general-purpose motion analysis software Altair MotionSolve, titled "Fluid Analysis During Butterfly Flapping Motion." For more details, please refer to the related links. We encourage you to take a look. *For detailed content of the column, you can view it from the related links. Please feel free to contact us for more information.

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[Technical Column] Thermal Fluid Analysis Using Thermosetting Resins and Light-Curing Resins

[Technical Column] Thermal Fluid Analysis Using Thermosetting Resins and Light-Curing Resins

Many injection molding simulation software programs incorporate innovations to reduce calculation time!

This column introduces "Thermal Fluid Analysis Using Thermosetting and Light-Curing Resins." Many resin flow analysis software solve the Stokes equations, and depending on the analysis conditions, there are limitations such as the inability to accurately reproduce the actual filling situation. By adding a viscosity model to thermal fluid analysis software that solves the Navier-Stokes equations, the reproducibility of actual flow phenomena is significantly improved. For more details, please refer to the related links. We encourage you to read it. [Contents] 1. About Injection Molding Simulation Software 2. Issues with Injection Molding Simulation Software 3. Problems with Injection Molding Simulation Software *For detailed content of the column, you can view it from the related links. Please feel free to contact us for more information.

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[Technical Column] Flow Analysis of Rubber Materials Using OpenFOAM

[Technical Column] Flow Analysis of Rubber Materials Using OpenFOAM

An example analysis of filling a cylindrical cavity with rubber material is presented! Functions necessary for calculating rubber materials are explained.

OpenFOAM is a solver with open-source code that complies with the GPL. Since the source is publicly available, users can freely customize it and add functionalities such as missing physical models or special material properties. In this column, we will introduce a case where the viscosity model equation for rubber materials was incorporated into OpenFOAM and a flow analysis was conducted. For more details, please refer to the related links. We hope you will take a moment to read it. 【Contents】 ■ About OpenFOAM ■ Functions necessary for rubber material calculations ■ Governing equations ■ Application examples *Detailed content of the column can be viewed from the related links. For more information, please feel free to contact us.

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[Structural Analysis Example] Impact Analysis of a Rigid Sphere on a Protective Net

[Structural Analysis Example] Impact Analysis of a Rigid Sphere on a Protective Net

Modeling the net and support pillars to simulate the impact of a rigid sphere of falling rocks!

We will introduce a case study on the analysis of the strength and behavior of a protective net when it is impacted by falling rocks. It is possible to confirm not only the deformation of the net and the generated stress due to the impact of a rigid sphere but also the stress and deformation of the support posts caused by the net pulling on them. This analysis allows for the verification of the load-bearing capacity and failure behavior of the protective net, which can contribute to more optimal protective designs. [Analysis Results] - Confirmation of the deformation of the net and generated stress due to the impact of a rigid sphere, as well as the stress and deformation of the support posts caused by the net pulling on them. - Ability to verify the load-bearing capacity and failure behavior of the protective net. - Possible contribution to more optimal protective designs. *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
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[Structural Analysis Example] Coupled Problem 1 Using Particle Method (SPH)

[Structural Analysis Example] Coupled Problem 1 Using Particle Method (SPH)

Modeled by the particle method (SPH)! The SPH water and Lagrange rotor blades apply contact conditions.

We will introduce a case study regarding "Bird Strike on Turbine Rotors." The properties of the bird are modeled as water using the Smoothed Particle Hydrodynamics (SPH) method. Contact conditions were applied between the SPH water and the Lagrangian rotor blades. In the related links below, we present the analysis results in images, so please take a look. 【Case Overview】 ■ SPH (Smoothed Particle Hydrodynamics) is suitable for analyzing fluid dispersion and large deformations. ■ The bird is modeled using the particle method (SPH). ■ The properties of the bird are modeled as water. ■ Contact conditions were applied between the SPH water and the Lagrangian rotor blades. *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
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[Structural Analysis Example] Plastic Poisson's Ratio Curve Using Bézier Curves

[Structural Analysis Example] Plastic Poisson's Ratio Curve Using Bézier Curves

Reproduce the exam results! Conduct optimization calculations using the coordinates of control points as design variables.

The plastic Poisson's ratio - equivalent plastic strain relationship is represented by two Bézier curves. Optimization calculations were conducted using the coordinates of the control points as design variables. We are attempting to reproduce the test results. In the related links below, we introduce graphs before and after the optimization calculations, so please take a look. *For more details, please refer to the related links or feel free to contact us.*

  • Structural Analysis
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[Fluid-Structure Interaction Case] Destruction Behavior of Reinforced Concrete Slabs Due to Underwater Explosion

[Fluid-Structure Interaction Case] Destruction Behavior of Reinforced Concrete Slabs Due to Underwater Explosion

The water confinement effect is more powerful compared to air explosions! This is a case that shows the destruction situation of the RC version is significantly different.

This is a case study that examines the destruction behavior characteristics of reinforced concrete slabs (RC slabs) due to underwater explosions through numerical simulations using coupled structural-fluid analysis. The explosive used is the H51 model (Pentolite 51g), and the pressure calculations for the model utilize the JWL (Jones-Wilkens-Lee) equation of state. For water, the compressibility is taken into account using the GRUNEISEN equation of state. As a result, in the case of underwater explosions, the RC slab experiences shear failure due to the immense pressure from the water's confinement, while in the case of aerial explosions, craters, spall failures, and cracking occur on both the top and bottom surfaces of the RC slab. [Analysis Settings] - The explosive is the H51 model (Pentolite 51g), and the pressure calculations for the model utilize the JWL equation of state. - For water, the compressibility is taken into account using the GRUNEISEN equation of state. *For more details, please refer to the related links or feel free to contact us.*

  • Structural Analysis
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[Analysis Case] chtMultiRegionFoam Solver

[Analysis Case] chtMultiRegionFoam Solver

Significant cost reduction in numerical simulations with OpenFOAM! Introducing a case study of thermal fluid analysis for enclosures.

This is an introduction to a case study conducted using the chtMultiRegionFoam solver for thermal fluid analysis of a casing, including heat conduction within solids. Eight solid materials were defined, with one inlet and one outlet set up, and a porous body defined at the inlet. Four cases were calculated: in cases 1-1 to 1-3, a velocity was defined at the outlet to check the airflow resistance (system impedance), and in case 2, a fan model was set up based on P-Q characteristics for the calculation. [Case Overview] ■ By executing multiple patterns of calculations with a specified flow rate at the outlet, it is possible to investigate airflow resistance (system impedance). ■ By defining P-Q characteristics at the outlet, thermal fluid analysis can be performed at the operating point of the fan. *For more details, please refer to the related links or feel free to contact us.

  • Thermo-fluid analysis
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FEM (Finite Element Method) Contract Analysis Service

FEM (Finite Element Method) Contract Analysis Service

At Benkan Kiko, we offer services such as strength analysis using FEM (Finite Element Method).

The various special fittings for processes handled by Benkan Kiko require more diverse specifications than commonly used and sold pipe fittings. In particular, pressure resistance performance is a crucial characteristic for ensuring the behavior and safety of pipe fittings under high pressure. Pressure resistance is secured by optimizing the shape and dimensions of the pipe fittings, and one of the design methods used is FEM analysis. This service includes the following main contents: - Design support for piping materials such as pipe fittings using FEM analysis ▻ Design of special-shaped pipe fittings (replacement from cast piping materials in high-pressure environments, etc.) ▻ Evaluation of pressure resistance performance of existing pipe fittings ▻ Manufacturing of special fittings (support from material procurement to manufacturing, testing, inspection, and shipping) - Various responses are possible by combining with our proprietary technology. For inquiries, please first contact our sales representative or use the web inquiry form on our website. From the initial meeting, a dedicated representative from our technical headquarters will respond, allowing you to directly reflect your requests in the analysis results. We can accommodate various meeting formats, including on-site visits, visits to our company, and web conferences (Zoom, MS Teams, etc.). Please feel free to consult with us.

  • Pipe Fittings
  • Beverage Production Equipment
  • Wastewater/wastewater treatment equipment
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Coupled analysis with 3D simulation (VPS)

Coupled analysis with 3D simulation (VPS)

Introduction to the current situation regarding updates on coupled analysis with VPS.

I would like to introduce the current situation regarding updates on coupled analysis with VPS (Virtual Performance Solution). In the GUI, we create models for coupled analysis using ESI Group's integrated GUI environment, VE (Visual Environment), specifically Visual-Systems. With the release of VE 13.5, the number of available components has increased. Specifically, in the previous version, the outputs from the VPS model were limited to position, displacement, angle, and angular velocity. However, in the current version, it now supports displacement and load, and the outputs to the VPS model have expanded to include not only load and pressure sensors but also displacement, velocity, and moment. This significantly broadens the range of cases for conducting coupled analysis. *For more details, please feel free to contact us.*

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High Frequency Noise Analysis "Brush Noise Analysis"

High Frequency Noise Analysis "Brush Noise Analysis"

Example of motor brush noise wraparound analysis

An analysis of motor brush noise on the control board was conducted. When an impulse signal simulating brush noise was applied, significant noise was confirmed to be superimposed on the CPU communication signal terminal. It was found that inserting a 0.1μF capacitor at the motor terminal could significantly suppress the noise at the CPU terminal. However, using low-frequency electrolytic capacitors with self-resonance as noise killer capacitors was found to worsen the noise level at the CPU terminal compared to not using a capacitor. 【Features】 ○ The communication signal enters the CPU communication terminal via the path X1→IC3→CPU. ○ Investigate the effects when impulse noise is applied to the motor terminal. ○ Noise analysis requires an analysis of the entire board, including the implemented components. For more details, please contact us or download the catalog.

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High Frequency Noise Analysis "Electrostatic Noise (ESD) Analysis"

High Frequency Noise Analysis "Electrostatic Noise (ESD) Analysis"

Apply ESD noise signals between the absolute ground and the connector FG terminal.

Conducted electrostatic noise analysis on a 6-layer data recorder board. Observed the potential difference between the grounds of a BGA with multiple ground terminals. The difference in noise voltage with and without the bypass capacitors implemented on the board was minimal, showing little effect from the bypass capacitors. This phenomenon can be considered as a difference in common mode current flowing through each ground terminal. To analyze such phenomena, it is necessary to analyze the entire board in its component-mounted state. 【Features】 ○ Electrostatic noise analysis of a 6-layer board (100x50mm) ○ Applied ESD noise signal between absolute ground and connector FG terminal For more details, please contact us or download the catalog.

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High Frequency Noise Analysis "Common Mode Noise Analysis"

High Frequency Noise Analysis "Common Mode Noise Analysis"

Apply two common-mode noises to the power terminal.

Apply common-mode noise signals and examine the characteristics of the common-mode filter. It is easy to confirm which manufacturer's filter is optimal across a wide frequency range. 【Features】 ○ Apply two common-mode noise signals to the power terminals ○ Difference in noise voltage with and without the common-mode filter ○ Current distribution characteristics with and without the filter For more details, please contact us or download the catalog.

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Switching Noise Analysis: "Analysis of Motor Switching Noise"

Switching Noise Analysis: "Analysis of Motor Switching Noise"

Generate switching pulses within the CPU.

Examination of conduction noise during motor switching operation. A control pulse source is set within the CPU. The driver transistor and FET are driven, allowing current to flow to the motor. A noise level of -50dBV can be observed at the power supply terminals with a fundamental wave component. 【Features】 ○ Generation of switching pulses within the CPU ○ Switching of FET (non-linear operation based on SPICE model) For more details, please contact us or download the catalog.

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Accurate, efficient, and detailed polymer characterization analysis! GPC/SEC LC

Accurate, efficient, and detailed polymer characterization analysis! GPC/SEC LC

A GPC/SEC liquid chromatography (LC) system with a multi-detector capable of measuring low molecular weights in the hundreds.

The "1260 Infinity II Multi-Detector GPC/SEC System" allows for the flexible combination of refractive index, light scattering, and viscosity detectors. It provides accurate absolute molecular weights and molecular sizes, making it suitable for the analysis of a wide range of polymers regardless of molecular weight range or solvent. Each detector is individually temperature-controlled, yielding highly precise and reproducible results. You can view all application notes and technical summaries for the 1260 Infinity and 1260 Infinity II Multi-Detector GPC/SEC Systems in the Application Finder. 【Features】 ■ Accurate molecular weight ■ Accurate size and structure ■ Minimal class diffusion ■ Efficient and reproducible ■ Fully upgradeable *For more details, please refer to the related links or feel free to contact us.

  • Analytical Equipment and Devices
  • Separation device
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WebCAD "PocketMyHome" for residential ventilation simulation

WebCAD "PocketMyHome" for residential ventilation simulation

All results from 3D shape input via the web can be operated on CAD. Revolutionary speed improvements achieved in about 15 minutes!

We have developed a software called "PocketMyHome" in collaboration with Computer System Research Institute Co., Ltd., which enables ventilation simulation based on WebCAD, and we have started offering it to our customers. This product allows for 3D shape input from the web, simulation execution, and result display, all operable on CAD, achieving a revolutionary speed-up with a total time of about 15 minutes from input start to result display. The calculation engine uses our WindPerfect, which is renowned for its analytical accuracy. We invite you to view a demo and confirm its capabilities. For more details, please contact us or download the catalog.

  • 3D CAD
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High-altitude space natural ventilation analysis

High-altitude space natural ventilation analysis

We will conduct a natural ventilation analysis of buildings with high ceilings during the summer and in calm conditions.

The natural ventilation analysis of high-ceiling spaces conducts an examination of natural ventilation in buildings with high ceilings during the summer and in calm conditions. In large spaces, there is often a trial-and-error approach to maintaining a comfortable temperature distribution by not solely relying on air conditioning but also expecting natural ventilation. During the summer and transitional periods, the temperature distribution within the space often stratifies, with higher temperatures at the top due to solar radiation and wall convection. Therefore, if there are openings at the upper part, density-driven convection can occur, allowing hot air to be expelled outside the building. In recent thermal environment analyses, if the size, position, and opening ratio of the openings are known, it is also possible to directly calculate the ventilation airflow rate. For more details, please download the catalog.

  • simulator
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  • Structural Analysis
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Natural ventilation analysis with wind.

Natural ventilation analysis with wind.

We will conduct thermal airflow simulations in the basic design phase plan.

In recent years, there have been many cases where natural ventilation utilizing outside air is actively incorporated during intermediate periods. Among these, a ventilation method that uses shafts installed within the building as exhaust and supply air systems has been considered from the basic design stage to efficiently carry out natural ventilation. The selection of appropriate locations and sizes for supply and exhaust openings is extremely important, and conducting thermal airflow simulations can provide insights into the overall operation of the building. In this analysis, we assumed windy conditions and performed thermal airflow simulations based on the plans at the basic design stage. For more details, please download the catalog.

  • Thermo-fluid analysis
  • simulator
  • Contract Analysis
  • Analysis

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Building Natural Ventilation Analysis

Building Natural Ventilation Analysis

We conducted ventilation analysis of structures such as EcoVoid and EcoShaft.

To reduce air conditioning load, natural ventilation that actively circulates outside air into the building is effective. Recently, incorporating structures such as eco voids and eco shafts into the basic design stage has gained attention for efficient natural ventilation. At that time, the size of the openings for bringing in outside air and their installation positions must be appropriate. In this analysis, we conducted ventilation analysis to examine the relationship between opening conditions and ventilation status. We modeled the target building and accurately reproduced the internal and external spaces of the building. For more details, please download the catalog.

  • Thermo-fluid analysis
  • simulator
  • Contract Analysis
  • Analysis

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Sliding Door Ventilation Analysis

Sliding Door Ventilation Analysis

We analyzed the ventilation characteristics of the sliding door, which is a movable boundary.

What are the ventilation characteristics around the windbreak room of the sliding door? In sliding doors that open and close based on traffic volume, it is important to capture the temporal changes in ventilation airflow. This analysis treats the sliding part as a moving object, aiming to gain insights into the circulation of air inside and outside. For more details, please download the catalog.

  • Thermo-fluid analysis
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  • Contract Analysis
  • Analysis

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Train Passing Airflow Analysis

Train Passing Airflow Analysis

I analyzed the airflow when vehicles pass each other using the moving boundary problem.

It is known that there are significant fluctuations in speed and pressure before and after trains pass each other in narrow spaces such as tunnels and subway stations. This is very important for the design of vehicles, tunnels, and associated structures. In this analysis, we simulated the airflow and pressure fluctuations affecting the surroundings when the train bodies pass each other using a moving boundary problem. For more details, please download the catalog.

  • Thermo-fluid analysis
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  • Contract Analysis
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Analysis of air conditioning in the foundry.

Analysis of air conditioning in the foundry.

We conducted an air conditioning analysis of the factory interior space with ventilation from external sources during calm conditions.

The air conditioning analysis within the foundry examined the air conditioning of the factory space with ventilation from the outside during still air conditions. In facilities such as factories, functionality such as air conditioning performance and ventilation efficiency takes precedence over design considerations. When evaluating the ventilation and air conditioning performance of the factory space, even if the ventilation and air conditioning airflow are set according to the heat generation of each section, the air flow between sections does not guarantee that the living area is always maintained at the specified temperature. Therefore, it is necessary to carefully consider the arrangement of nozzles and airflow settings. For more details, please download the catalog.

  • simulator
  • Contract Analysis
  • Structural Analysis
  • Analysis

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Cooling Tower Thermal Flow Analysis

Cooling Tower Thermal Flow Analysis

A thermal flow analysis considering external wind and humidity (water vapor movement) was conducted.

The thermal flow analysis of the cooling tower was conducted to predict white smoke generation during winter for a large 8-cell configuration, taking into account external wind and humidity (water vapor movement). There are many thermal flow devices related to building equipment whose characteristics and behaviors are not well understood. The cooling tower is one of them, but by precisely setting the structure, flow conditions, and thermal conditions of each cell of the cooling tower, it becomes possible to reproduce the thermal flow state quite accurately. For more details, please download the catalog.

  • Contract Analysis
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  • simulator
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Analysis of Thermal Environment in Warm Water Pools

Analysis of Thermal Environment in Warm Water Pools

Conducted air conditioning analysis during heating when cold drafts from the circular roof glass surface became an issue.

The analysis of the thermal environment in heated swimming pools focused on the air conditioning analysis during heating, where the cold draft from the circular roof glass surface becomes a problem. The temperature distribution in large spaces tends to be more disturbed compared to smaller spaces. This is generally because large spaces are more likely to have uneven wall flow and heat loads, making it difficult for the conditioned air to circulate in the occupied zone. Recent air conditioning analyses have become capable of accurately simulating actual properties, including the three-dimensional shape of the structure, the behavior of supply and return air, and various heat loads. For more details, please download the catalog.

  • simulator
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Analysis of Air Conditioning in Cold Storage Warehouse

Analysis of Air Conditioning in Cold Storage Warehouse

An example of a freezer equipped with an automatic transport system was provided, and an air conditioning analysis was conducted.

The air conditioning analysis in a refrigerated warehouse was conducted using an example of a freezer equipped with an automatic conveyor. Air conditioning analysis has traditionally been performed in large spaces such as atriums and domes, but recently it has increasingly been applied to specialized spaces as well. Examples include automated warehouses, clean rooms, underfloor air conditioning, displacement ventilation, and food factories, each of which has stringent air conditioning performance requirements, making it difficult to set equipment specifications. For more details, please download the catalog.

  • simulator
  • Contract Analysis
  • Structural Analysis
  • Analysis

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Environmental Analysis of Namba Oi Mansion Style

Environmental Analysis of Namba Oi Mansion Style

We conducted an analysis and examination regarding summer (southwest wind) and winter (north wind).

The analysis of the wind environment around the Minami-Oi Mansion examined the impact on the wind environment in the surrounding area for a residential building located in the urban area of Ota Ward, Tokyo, during the summer (southwest wind) and winter (north wind). There have been frequent issues related to the wind environment (building wind) concerning the construction of relatively low-rise apartments, around 10 stories, primarily in Tokyo. The situation is such that a building of about 30 meters in scale is being constructed in an area densely populated with single-story buildings (around 6 meters high). Therefore, if the planned building is positioned in a way that obstructs the wind path of the block, there are concerns about the deterioration of the surrounding wind environment. For more details, please download the catalog.

  • simulator
  • Contract Analysis
  • Structural Analysis
  • Analysis

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