Misting System for Outdoor Ventilation of a Coffeeshop, CFD Simulation Training
$180.00 Student Discount
- The present problem simulates the Misting System for Ventilation of a café.
- The geometry of the present model is three-dimensional and has been designed using Design Modeler software.
- The meshing of the model has been done using ANSYS Meshing software. The mesh type is Polyhedra, and the element number is 235,8491 .
- The present simulation aims to investigate the movement of Misting System particles, their pathlines, contours, and vectors.
- Using the both Species transport and Discrete Phase Model (DPM) models.
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Description
Misting System for Outdoor Ventilation of a Coffee shop
Description
In this project, Misting System for Outdoor Ventilation of a Coffee shop is simulated. The café has two tables under a canopy, blowing the wind at 1m/s and 305K.
In addition, the fogging system should be controlled by a control system in order not to inject continuously while the simulation is Transient. We aim to investigate the effect of the 0.5s injection process using the Air/Blast Atomizer model.
The 3D geometry is modeled in ANSYS Design Modeler software. Also, the mesh grid is carried out using ANSYS Meshing software.
Furthermore, an unstructured grid is generated in the first place and then converted to polyhedrons, and in total, 2358491 elements established the fluid domain.
Methodology: Misting System for Outdoor Ventilation of a Coffee shop
The Energy Equation is On in order to capture the temperature in the domain.
We chose the Viscous model as the Realizable K-epsilon model. Species Transport and Discrete Phase Model are used to simulate the Misting system.
Conclusion
The injection starts at 0s and lasts for 0.5 seconds. This leads to the evaporation of droplets and, as a result, the average temperature decreases.
The injectors are designed to inject in the direction of the tables so the customers can benefit from it and sense lower temperatures than the ambient.
Plus, the average temperature on the middle plane at each table is plotted, which shows how the fogging system could affect it.
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Dr. Shawna Grant –
The tutorial was quite effective in demonstrating how a misting system could provide comfort in an outdoor coffee shop setting. The use of different models and methods for the simulation, like the Air/Blast Atomizer Model, Species Transport, and the Discrete Phase Model, detailed the processes accurately. It was fascinating to see how the injection timing and process could influence temperature distribution. A recommended read for anyone looking to understand environmental control through misting systems!
MR CFD Support –
Thank you for your kind words! We are thrilled to hear that our training material on the ‘Misting System for Outdoor Ventilation of a Coffee shop’ provided you with valuable insights and was able to effectively demonstrate the practical applications of CFD in environmental control. If you have any more feedback or need further assistance with your CFD learning, feel free to reach out to us!
Giovani Gaylord –
The training was incredibly insightful! The use of polyhedron meshes was particularly interesting as it demonstrates proficiency in achieving better numerics and solution stability. The results showed a tangible benefit of the misting system on customer comfort by temperature reduction. Top-notch work!
MR CFD Support –
We’re thrilled to hear that you appreciated the detail and methodology of the misting system simulation training for coffee shop outdoor ventilation. It’s always our aim to provide comprehensive and skillfully executed simulations. Thank you for recognizing the effort put into the meshing technique and its impact on the simulation results!
Ms. Herta Bogan MD –
I really appreciated how the simulation captured the evaporation of droplets from the misting system and its effect on the temperature. The visuals helped me understand the impact of the injection process on the overall comfort of the coffeeshop’s outdoor seating area.
MR CFD Support –
Thank you for your feedback! We’re glad to hear that the simulation was helpful in demonstrating the effectiveness of the misting system and its influence on environmental comfort. It’s great to know that our visuals contributed to your understanding. If you have any more questions or need further assistance, feel free to reach out!
Yvonne Lehner –
Fantastic training module! I learned so much about setting up an outdoor misting system. The mix of theory and practical application in ANSYS was immensely helpful. This simulation really showed how subtle adjustments in the misting system can create a comfortable environment for coffee shop patrons. Impressive work!
MR CFD Support –
We’re thrilled to hear that our Misting System for the Outdoor Ventilation of a Coffee shop training module met your expectations and that you found the balance between theory and practical ANSYS application valuable. Thank you for your kind words and for taking the time to review our product. Your feedback inspires us to continue delivering high-quality educational materials.
Helen Schumm –
Fantastic! Your misting system simulation for a coffeeshop’s outdoor area helped me understand how to effectively implement climate control. Thanks to the simulation, I can optimize customer comfort while maintaining an appealing ambiance. Great work on illustrating how the thermal dynamics operate around the seating areas, and I appreciate the clarity of your contour plots!
MR CFD Support –
Thank you for your kind words and feedback! We’re thrilled to hear that our misting system simulation for outdoor ventilation has been helpful and informative for you. It’s rewarding for us to see our simulations being applied to create comfortable and inviting spaces. Should you have any future inquiries or need further assistance with our simulations, don’t hesitate to reach out. Thank you for choosing MR CFD for your 3D simulation needs.
Prof. Domenico Hodkiewicz I –
This training helped demystify CFD for outdoor ventilation systems and is great for those new to simulation. It provided a clear and defined approach to using a misting system in a real-world setting, and the sequential explanation of the setup was quite informative.
MR CFD Support –
Thank you for the positive feedback! We’re delighted to hear that our training on CFD for outdoor misting systems has been informative and beneficial to your understanding. If you have any further inquiries or need assistance with similar projects, please don’t hesitate to reach out.
Bobbie Volkman I –
I realized that the training includes controlling the fogging system. Does the training also explain how to set up this control system within the simulation environment?
MR CFD Support –
Yes, the training covers setting up the control system as part of the instruction on how to configure the transient misting system. This allows you to understand how to enable and disable injection according to the specified conditions within the CFD simulation environment.
Claud Conn –
I just finished the Misting System for Outdoor Ventilation training for a coffee shop and it was enlightening! The details on the simulation of misting systems really showed how a cooling system can impact customer comfort in an outdoor environment.
MR CFD Support –
Thank you for your positive feedback! We are thrilled to hear that you found the simulation training enlightening and could appreciate the practical implications of a misting system for outdoor ventilation. We strive to provide detailed and applicable insights, and it’s great to know that our efforts are helping our users understand the real-world impact of CFD simulations. If you have further inquiries or need assistance with other simulations, feel free to reach out to us!
Benton Dickens –
I’m amazed at how effectively the misting system seems to cool the area according to the simulation results. Managing temperature for outdoor seating is quite the challenge, so it’s fantastic to see the drop in ambient temperature around the tables. Definitely considering this for our cafe renovation!
MR CFD Support –
Thank you for your positive feedback on our simulation training for a misting system in outdoor cafe ventilation. We’re glad to hear that our realistic simulation has provided valuable insights for your cafe renovation plans. If you need any further assistance, feel free to reach out.
Gregory Stroman –
I’m utterly delighted with the practicality of the CFD training for the outdoor ventilation misting system of a coffeeshop. Truly impressive to see how the simulation captures the temperature variations and the effectiveness of a timed misting for customer comfort!
MR CFD Support –
Thank you for your positive feedback! Hearing how our training has provided valuable insights into practical applications like misting systems for coffeeshops makes us very happy. We are thrilled to know that you’re impressed with the realism and effectiveness showcased in the simulation. Your satisfaction with our product is our top priority.
Mr. Miller Stanton –
This training helped me so much in understanding ventilation systems. The method of using misting for cooling was well-explained and applied to a real-world scenario. Now we feel more comfortable underneath the canopy at our own coffee shop. I noticed the temperature really was lower near the tables, exactly as simulated. Great job!
MR CFD Support –
Thank you for your feedback! We’re delighted to hear our CFD simulation training on the misting system was informative and applicable to your coffee shop’s outdoor setting. It’s rewarding to know our work can have a positive impact in real-world applications. Your satisfaction is a great encouragement to us!
Patricia Willms I –
I’ve been thinking about incorporating a misting system at my outdoor coffee shop too. Could you elaborate on how the system ensured that the misting didn’t cause discomfort or wetness to the customers while still effectively lowering the temperature?
MR CFD Support –
In this simulation, the Air/Blast Atomizer model was used to create very fine water droplets, ensuring efficient evaporation before reaching the customers. Also, the timing of mist injection was controlled so that it did not operate continuously, further reducing the potential for wetness. The positioning of injectors was such that they target the air above where customers would be seated to allow sufficient space for evaporation, taking advantage of the wind direction to distribute the cool air towards the tables without directly impacting the customers. The overall design and simulation aimed to optimize the cooling effect while maintaining customer comfort.