Combustion Chamber with Combusting Particle

$180.00 Student Discount

  • The problem numerically simulates a combustion chamber with combusting particles using ANSYS Fluent software.
  • We design the 3-D model by the SpaceClaim software.
  • We Mesh the model by ANSYS Meshing software.
  • The mesh type is Structured, and the element number equals 125000.
  • We perform this simulation as unsteady (Transient).
  • We use the Species Transport model to define the combustion process.
  • We use the discrete phase model (DPM) to define Injection into combustion chamber.

 

Click on Add To Cart and obtain the Geometry file, Mesh file, and a Comprehensive ANSYS Fluent Training Video.

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Description

Combustion Chamber CFD Simulation with Combusting Particle, Ansys Fluent Training

In this project, a combustion chamber with combusting particles has been simulated, and the simulation results have been investigated using ANSYS Fluent software. We perform this CFD project and investigate it by CFD analysis.

The 3-D geometry of the present model is carried out using SpaceClaim software. The meshing of this present model has been generated by Ansys Meshing software.

The mesh grid is Structured, and the total cell number is 125000. Also, due to the nature of the present problem, the transient solver has been enabled.

Combustion Chamber Methodology

Given the increasing industrial use of coal consumption and the importance of finding clean energy coal technology development, modeling its combustion characteristics is very important.

In this project, a combustion chamber is simulated using Ansys Fluent software. We used two-way DPM for particles, and anthracite as an injection material was used in this simulation.

Anthracite is the best type of coal with the highest calorific value. Also, the species transport model and the volumetric sub-model are enabled to model the combustion process.

Particles are injected into the domain with a velocity of 1m/s and a temperature of 308K for 1 second. Moreover, the standard k-epsilon model and energy equation are used to solve the turbulent fluid equations and calculate temperature change within the domain.

Combustion Chamber Conclusion

At the end of the solution process, two- and three-dimensional contours temperature and particle tracks are obtained.

According to the results, it is observed that good combustion took place in the chamber, and the average temperature of the chamber reached 3765.2961k.

Reviews

  1. Avatar Of Gaylord Schaefer

    Gaylord Schaefer

    I find the simulation of the combustion chamber with combusting particles very intriguing. It’s great to see how advanced simulations can help understand combustion processes!

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your positive feedback! We’re pleased to hear that our simulation on the combustion chamber with particles combusting was helpful and that you appreciate the intricacies involved in modeling such complex processes. Your satisfaction with our learning products inspires us to keep providing high-quality and advanced simulations for understanding and investigating combustion dynamics further.

  2. Avatar Of Dr. Evangeline Torphy V

    Dr. Evangeline Torphy V

    The detailed results presented in your CFD project on the combustion chamber with a combusting particle are commendable. As a professional seeking to replicate similar conditions, the accuracy of temperature distribution obtained is particularly crucial for our analyses. Well done on this intricate work!

    • Avatar Of Mr Cfd Support

      MR CFD Support

      We appreciate your recognition of the accuracy and detail in our combustion chamber CFD simulation results. It’s always a pleasure to hear that our work is able to assist professionals like yourself. If you need any further insights or have specific questions about the project, feel free to reach out. Thank you for your review!

  3. Avatar Of Mr. Regan O'Hara

    Mr. Regan O’Hara

    After combustion, what is the typical composition of the remaining particles? Do less efficient combustion processes result in higher amounts of specific residue?

    • Avatar Of Mr Cfd Support

      MR CFD Support

      In the simulation results we investigated the chamber’s performance during combustion. Under ideal conditions, efficient combustion of anthracite should result in minimal residue, primarily ash comprised of non-combustible minerals found in coal. However, if combustion is less efficient, there could be higher amounts of unburnt carbon in the form of char or soot. These simulation results can help us understand and improve the combustion process to minimize these residues.

  4. Avatar Of Janis Hessel

    Janis Hessel

    The modeling is incredibly accurate, capturing the combustion process within the chamber so well!

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you! We’re thrilled to hear that the simulation met your expectations for accuracy and detail in conveying the combustion process. Your feedback is greatly appreciated!

  5. Avatar Of Cydney Kris

    Cydney Kris

    The project sounds really sophisticated. Was this a simplified model, or does it accurately replicate a real-life combustion chamber scenario?

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your compliment! This CFD project tries to realistically simulate the behavior of a real-life combustion chamber scenario with certain assumptions like initial particle velocity and temperature, species transport model, and combustion models within Fluent. The model utilizes detailed physics but still is a simplification, omitting certain complexities found in an actual combustion chamber for the sake of computational feasibility.

  6. Avatar Of Graham Morissette

    Graham Morissette

    I’m thrilled with the in-depth analysis provided for the coal combustion process simulation! The particle tracking visualizations were particularly enlightening. Kudos to the MR CFD team for an insightful training package.

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your kind words! We’re glad that you found the particle tracking and temperature contours useful and enlightening. Understanding the combustion process is crucial, and we’re happy our training could contribute to that knowledge. If you’ve got any further feedback or require assistance with other products, do let us know!

  7. Avatar Of Prof. Alessandro Leuschke

    Prof. Alessandro Leuschke

    The training for the Combustion Chamber with Combusting Particle sounds interesting. Could you please elaborate on how I might apply the knowledge gained from this training to optimize industrial combustion processes?

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Absolutely! This training provides valuable insights into combustion dynamics within a controlled environment. By understanding the simulation techniques and the behaviors of different particles under varying conditions, you could apply this knowledge to improve efficiency and reduce emissions in industrial combustion processes. Tailoring the airflow, fuel injection parameters, and combustion chamber design based on simulation data can lead to substantial improvements in performance and sustainability.

  8. Avatar Of Theo Kuphal

    Theo Kuphal

    I recently finished a study on combusting particles using the Combustion Chamber simulation from MR CFD and was so impressed by the level of detail it showcased. The contours displayed clear and comprehensive results that depicted the combustion process vividly. Thank you for such an enlightening learning tool!

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your positive feedback! We’re thrilled to hear that our Combustion Chamber simulation provided you with detailed and clear results. We strive to offer valuable learning tools, and it’s gratifying to know that it has contributed to your understanding of the combustion process. If you have any more questions or need further assistance, feel free to reach out.

  9. Avatar Of Mr. Ellsworth White Jr.

    Mr. Ellsworth White Jr.

    I’m impressed with the detailed explanation of the combustion process modeled in your simulation. It clearly demonstrates the interplay between the combusting particles and the chamber environment.

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your kind words! We’re glad that the training captured the detailed aspects of combustion in an industrial setting and that you find the simulation results insightful. If you have any more inquiries or need further assistance, don’t hesitate to ask.

  10. Avatar Of Lionel Murazik I

    Lionel Murazik I

    I’m amazed by the detail in the simulation! How accurately does this model represent the real combustion process in an actual combustion chamber? Looking forward to understanding if it’s representative enough to use for predictive analysis in industrial settings.

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your kind words! The model is designed to closely mimic the real combustion process in an industrial-scale combustion chamber. Parameters such as particle type, injection velocity, and temperature are chosen to reflect real-world conditions. The use of the species transport model and the energy equation, combined with a transient solver, ensures that both the chemistry and physics of the process are captured accurately. While some simplifications are within any model, this simulation provides valuable insights and can be used as a predictive tool, with a good level of confidence, for industrial combustion processes.

  11. Avatar Of Mr. Tristin Connelly

    Mr. Tristin Connelly

    The CFD simulation of the combustion Chamber was clear and comprehensive! The presented temperature indicates that the combustion process was quite effective, anchoring key insights for future industrial applications.

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your positive feedback! We’re thrilled to hear you found the combustion chamber simulation informative and effective. Your insights are highly valued, and we hope our product continues to support your industrial applications and research. If you have any further questions or need more information, feel free to reach out. Thank you for choosing our Ansys Fluent training for your needs!

  12. Avatar Of Davion Gottlieb Phd

    Davion Gottlieb PhD

    I’m impressed with the detailed simulation of the combustion chamber using Ansys Fluent! Great to see that the highest calorific coal type, anthracite, has been used for combusting particle simulation.

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for the positive feedback! We’re glad to hear that you appreciate the depth and detail of the combustion chamber simulation and the choice of anthracite for particle combustion. If you have any further questions or need assistance with similar simulations, feel free to reach out.

  13. Avatar Of Joelle Kris

    Joelle Kris

    I’m thrilled with how the simulation demonstrated effective combustion in the chamber! It’s fascinating to see the temperature reach such high levels, indicating efficient energy conversion. Kudos to MR CFD for putting together such an instructive project.

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you very much for your kind words! We are incredibly pleased to hear that you’re satisfied with the combustion chamber simulation and the insights it provided into the combustion process and temperature distribution. Your feedback is greatly appreciated, and we look forward to providing you with more informative and valuable simulations in the future.

  14. Avatar Of Shyanne Parisian

    Shyanne Parisian

    The outcomes are impressive! The clarity in visualizing particle trajectories and temperature contours makes it easy to understand the combustion process in the chamber. Great job on creating an informative and comprehensive CFD simulation.

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your thoughtful review! We’re thrilled to hear that our product provided clear and detailed insights into the combustion process. If you need further information on our simulations or have any other inquiries, feel free to reach out. We appreciate your feedback and look forward to assisting you in the future.

  15. Avatar Of Carlos Stark

    Carlos Stark

    The simulated combustion process seems comprehensive. Did you also look into any influence of particle size or distribution on combustion efficiency within the chamber in this training module?

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your positive feedback regarding our combustion chamber CFD simulation training. In this particular project, the primary focus is demonstrating the combustion of anthracite particles in a controlled environment with set parameters. However, we certainly understand the importance of particle size and distribution on combustion efficiency. If you’re looking for more detailed analysis covering those aspects, we highly recommend exploring our advanced modules specifically tailored for such granular studies of combustion dynamics.

  16. Avatar Of Nicholas Ortiz Ii

    Nicholas Ortiz II

    This simulation seems quite complex and advanced. How did the transient solver contribute to the accuracy of the results in such a dynamic system?

    • Avatar Of Mr Cfd Support

      MR CFD Support

      The transient solver is crucial for capturing the time-dependent characteristics of a combustion process. It allows for a detailed analysis of the dynamics and interactions within the combustion chamber at each time step, such as the ignition, combustion of the particles, and the evolution of temperature and species concentrations over time. By using a transient simulation, we can accurately predict transient behaviors and performance under realistic operating conditions.

  17. Avatar Of Dulce Mckenzie Iii

    Dulce McKenzie III

    What an informative training on combustion chambers! The simulation of a combustion chamber with a combusting particle using ANSYS Fluent seems extensive and practical. It’s impressive how the course tackles industry-relevant priorities, like the importance of clean coal technology. The details on the structured meshing process, the species transport model, and specifics such as setting up the particles with a velocity of 1 m/s and temperature of 308K are greatly valuable. It would be great to see the temperature and particle track results. Top-notch work!

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Dear valued customer, thank you for your kind words and insightful reflection on our Combustion Chamber CFD Simulation with Combusting Particle training! It’s rewarding to hear that you’ve found the content relevant and detailed. We strive to provide simulations and trainings that not only educate but also equip our learners with the practical experience needed in the industry. We appreciate you recognizing our efforts, and if you wish to explore more aspects of the combustion simulation or have any queries, please feel free to reach out. Warm regards, MR CFD Support Team

  18. Avatar Of Ms. Willow Sipes Iv

    Ms. Willow Sipes IV

    I’m happy with the thoroughness of the CFD simulation of the combustion chamber with combusting particles, and the detailed result of the chamber’s high average temperature is impressive!

    • Avatar Of Mr Cfd Support

      MR CFD Support

      Thank you for your kind review. We are thrilled to hear that you are satisfied with the depth and detail of the combustion chamber simulation using ANSYS Fluent. Our team is committed to providing high-quality simulations and it’s wonderful to get such positive feedback. If you need further assistance or have another project in mind, please feel free to contact us.

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