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Pcm: Solidification And Melting Training Package, 11 Intermediate Cfd Simulations - Image 2
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PCM: Solidification and Melting Training Package, 11 Intermediate CFD Simulations

Original price was: $1,460.00.Current price is: $249.00. Student Discount

  • Master intermediate PCM applications in building systems and renewable energy
  • Learn advanced thermal management strategies using PCM
  • Develop expertise in HVAC and solar energy integration with PCM
  • Understand complex heat transfer mechanisms in PCM systems
  • Apply PCM modeling to practical building energy solutions
  • Gain proficiency in renewable energy system optimization
Click on Add To Cart and obtain the Geometry file, Mesh file, and a Comprehensive ANSYS Fluent Training Video.

To Order Your Project or benefit from a CFD consultation, contact our experts via email ([email protected]), online support tab, or WhatsApp at +44 7443 197273.

There are some Free Products to check our service quality.
If you want the training video in another language instead of English, ask it via [email protected] after you buy the product.
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Helical Heat Exchanger

Solidification and Melting in Fuel Tank ANSYS Fluent CFD Simulation Tutorial

  • Solidification & Melting in a gasoline fuel tank is simulated by ANSYS Fluent.
  • The geometry of the present model is drawn by Design Modeler software.
  • The model is then meshed by ANSYS Meshing software, and the total number of cells is equal to 511821.
  • The simulation is Transient.
Pcm

PCM in Shell and Tube Finned Heat Exchanger CFD Simulation

  • Performance of Phase Change Material (PCM) inside a shell and tube-finned heat exchanger by ANSYS Fluent software.
  • The current model is designed in three dimensions using Design Modeler software.
  • The meshing of the present model has been done using ANSYS Meshing software. The mesh type is structured, and the element number is 2989887.
  • The phase change material is paraffin, so the solidification and melting model has been used.
  • The simulation is Unsteady in terms of time.

 

Solar Heater

Solar Heater of Water Tank with PCM CFD Simulation

  • The problem numerically simulates the Solar Heater of a Water Tank and the Effect of PCM using ANSYS Fluent software.
  • We design the 2-D model by the Design Modeler software.
  • We Mesh the model by ANSYS Meshing software, and the element number equals 5803.
  • We perform this simulation as unsteady (Transient).
  • We use the Solidification and Melting model to define phase change materials.
Passive Air Conditioning

Air Conditioning with PCM CFD Simulation

  • The problem numerically simulates air conditioning with phase change materials (PCM) using ANSYS Fluent software.
  • We design the 2-D model by the Design Modeler software.
  • We Mesh the model by ANSYS Meshing software.
  • The mesh type is Structured, and the element number equals 45000.
  • We perform this simulation as unsteady (Transient).
  • We use the Solidification and Melting model to define phase change materials.
Pcm

PCM Components in Hot Water Tank Thermal Analysis (Load & Discharge), CFD Simulation Training

In this project, PCM components in a hot water tank are simulated.

Thermal Management By Pcm In A Room Wall Cfd Simulation

Thermal Management by PCM in a Room Wall CFD Simulation

  • This problem simulates the Wall of a room with Phase Change Material (PCM) by ANSYS Fluent software.
  • The geometry of the present model is drawn by Design Modeler software and then meshed by ANSYS Meshing software.
  • the mesh type is structured and the cell number equals 193,500.
  • the solution is solved transiently.
  • The solidification & Melting model is enabled.
Passive Ventilation

Passive Ventilation by PCM, ANSYS Fluent CFD Simulation Tutorial

  • The present CFD Project simulates PCM for Passive Ventilation via ANSYS Fluent software.
  • We modeled the geometry using ANSYS Design modeler software and created the mesh using ANSYS meshing software.
  • The meshing is structured, and the number of cells for the first and second models is 228448 and 241560, respectively.
  • The solidification and Melting Model has been used to define PCMs.
  • Incompressible Ideal Gas has been used to define density changes.
  • The problem is dependent on time and unsteady.
Phase Change Material

Phase Change Material (PCM) in HVAC System CFD Simulation

  • This study investigates the thermal performance of an HVAC system with Phase Change Materials (PCMs) using ANSYS Fluent.
  • The geometry, representing a U-shape pipe system with PCM-filled pipes, is designed in ANSYS SpaceClaim and meshed using ANSYS Meshing, resulting in 6,204,324 polyhedra elements.
  • The simulation is conducted as a transient analysis over 24 hours.
  • The RNG k-ε turbulence model is employed, and the Solidification and Melting model is activated with a Mushy Zone Parameter of 100,000.
  • The energy equation is enabled to accurately model heat transfer.
2 3 Center Top

Thermocapillary Convection on Melting Phase Change Material (PCM)

  • This product uses ANSYS Fluent software to investigates the effect of thermocapillary convection on the melting and deforming processes of a Phase Change Material (PCM) subjected to local heating
  • The VOF method tracks the deformable liquid-gas interface
  • Thermocapillary convection is modeled by including a volumetric source term in the momentum equation
  • Enthalpy-Porosity Method models the melting process
  • The geometry is designed using SpaceClaim, and the meshing is performed using Ansys Meshing, with 47,500 cells.
Solar Collector

PCM Solar Collector CFD Simulation by ANSYS Fluent Tutorial

  • The problem numerically simulates PCM Solar Collector using ANSYS Fluent software.
  • We design the 3-D model by the Design Modeler software.
  • We Mesh the model by ANSYS Meshing software, and the element number equals 969866.
  • We perform this simulation as unsteady (Transient).
  • We use the Solidification and Melting model to define phase change materials.
  • We use the Discrete Ordinate (DO) to define radiation heat transfer.
Pcm Enhanced Pv Panel Center Top

PCM-Enhanced PV Panel, Ansys Fluent CFD Simulation

  • In this product, we conducted a comprehensive study comparing two distinct cases1) A conventional PV panel without pCM 2) An enhanced system incorporating PCM cooling technology
  • comprehensive three-dimensional model was developed using ANSYS SpaceClaim,The computational domain was discretized using ANSYS Meshing software, employing a structured grid approach with approximately 1,000,000 elements
  • The Solidification and Melting model was activated to accurately capture the phase change dynamics of the PCM
  • The Discrete Ordinates (DO) radiation model was implemented to account for radiative heat transfer
  • Solar Ray Tracing was enabled for precise solar load calculations

Special Offers For All Products

If you need the Geometry designing and Mesh generation training video for all the products, you can choose this option.
The journal file in ANSYS Fluent is used to record and automate simulations for repeatability and batch processing.
Editable geometry and mesh allows users to create and modify geometry and mesh to define the computational domain for simulations.
The case and data files in ANSYS Fluent store the simulation setup and results, respectively, for analysis and post-processing.
Geometry, Mesh, and CFD Simulation methodologygy explanation, result analysis and conclusion
If you want training in any language other than English, we can provide you with a subtitled video in your language.

Special Offers For Single Product

If you need the Geometry designing and Mesh generation training video for one product, you can choose this option.
If you need expert consultation through the training video, this option gives you 1-hour technical support.
The journal file in ANSYS Fluent is used to record and automate simulations for repeatability and batch processing.
editable geometry and mesh allows users to create and modify geometry and mesh to define the computational domain for simulations.
The case and data files in ANSYS Fluent store the simulation setup and results, respectively, for analysis and post-processing.
Geometry, Mesh, and CFD Simulation methodologygy explanation, result analysis and conclusion
The MR CFD certification can be a valuable addition to a student resume, and passing the interactive test can demonstrate a strong understanding of CFD simulation principles and techniques related to this product.
Enhancing Your Project: Comprehensive Consultation and Optimization Services
Collaborative Development of a Conference Paper on Cutting-Edge Topics with MR CFD
Collaborative Publication Opportunity: Contribute to an ISI Article and Get Featured in Scopus and JCR-Indexed Journals
If you want training in any language other than English, we can provide you with a subtitled video in your language.

Description

Intermediate PCM Applications: Building Systems and Renewable Energy Integration

Advanced Thermal Management Solutions

This intermediate-level training package explores sophisticated applications of Phase Change Materials, focusing on building systems, renewable energy, and advanced thermal management. The course demonstrates how PCM integration enhances system performance across various applications.

Building Energy Systems

Climate Control Applications

The course begins with fundamental building applications, exploring PCM implementation in room walls and passive ventilation systems. These modules establish the foundation for understanding building thermal management strategies.

HVAC Integration

Advancing to more complex systems, the training covers PCM integration in air conditioning and HVAC systems, demonstrating sophisticated approaches to energy efficiency and thermal comfort optimization.

Renewable Energy Applications

Solar Energy Systems

The course progresses through various solar applications, from basic solar collectors to PCM-enhanced PV panels, exploring how phase change materials improve renewable energy system efficiency. The solar heater water tank simulation bridges the gap between solar collection and thermal storage.

Thermal Storage Solutions

Complex thermal storage applications are examined through shell and tube finned heat exchangers and hot water tank systems, incorporating load and discharge cycles for practical energy management.

Specialized Applications

Advanced Heat Transfer Mechanisms

The training explores sophisticated heat transfer phenomena through thermocapillary convection analysis in melting PCM, providing deeper understanding of complex phase change dynamics.

Industrial Implementation

Practical industrial applications are addressed through fuel tank solidification and melting simulation, demonstrating PCM implementation in specialized storage systems.

Integration Framework

The comprehensive approach ensures mastery of intermediate simulation principles while maintaining focus on practical applications. Each module contributes to building expertise in PCM modeling for real-world systems.

System Optimization

Understanding the interplay between PCM properties and system performance enables optimization of thermal management strategies across various applications.

Energy Efficiency

Developing expertise in energy-efficient design through PCM integration, preparing engineers for challenges in building energy systems and renewable energy applications.

This intermediate-level course synthesizes advanced numerical methods with practical engineering applications, preparing specialists for complex PCM implementation challenges. The progression builds comprehensive understanding of system integration concepts, enabling engineers to design and optimize PCM-enhanced energy systems with confidence.

The course emphasizes practical implementation while maintaining focus on energy efficiency and system optimization. This balanced approach ensures participants develop both technical understanding and practical skills necessary for modern building and renewable energy applications.

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