heat transfer simulation solidworks

Forced convection from cooling fans is represented by definition of fan conditions. It is calculated as an output from the Flow Simulation and can be extracted as a results parameter. In specifying material properties for transient thermal analysis, you need to specify thermal conductivity, density, and specific heat. Deciding which physics to include is critical to setting up an efficient CFD model. Hello Terence, Aside from preparing the geometry for internal analysis and defining fans, the bulk of the setup work for this type of problem lies in defining the appropriate solid materials and heat sources. There is no exact rule for predicting adequate computational domain size. SOLIDWORKS Flow Simulation is fully embedded inside SOLIDWORKS, making it easy to . Figure 1. It's true. Enabling the radiation option in the Project Wizard allows definition of emissivity and performs simulation of radiative heat transfer. It can also perform sequential multi-physics simulations. This means that its possible to force a coarser mesh density, which will effectively ignore tiny details in the model without actually performing extensive geometry simplification. Heat removal in the high-powered electronics manufactured today is typically accomplished by air or liquid cooling. These tutorials using can give you the skills to analyze any problem involving these topics whether they are encounter in a class or elsewhere. The additional capabilities include: Two-resistor compact model to accurately simulate electronic packages Heat Pipes for modeling a predominant cooling approach Most important is to know the time in which the temperaure will become too high (say a value) that isnt acceptable. We will be in touch with you shortly. This article presented the case that thermal analysis involving convection is best analyzed using a tool capable of natively solving conjugate heat transfer, such as the CFD-based approach presented by SOLIDWORKS Flow Simulation. Right-click on Thermal Loads , and select Heat Power ; Use the FeatureManager flyout tree to select the microchip part ; Set the Heat Power to be 25 W ; Next, we need to consider how this heat is going to be dissipated. This paper presents a study of the solidification performance of parts produced by a thermoplastic injection process, verifying their dimensional, visual, and production behavior according to the. Search 'Types of Heat Transfer Analysis' in the SOLIDWORKS Knowledge Base. I'm new in flow simulation. Much like mesh cell refinement, a best practice would be to conduct a virtual experiment by cloning (duplicating) the Flow Simulation projects and iterating on computational domain size until an adequate balance of accuracy and solve time is determined. Figure 4 below compares three different computational domain sizes.   1995-2022Dassault Systmes. Simulation of heat transfer by conduction is done within THESEUSFE using established Finite Element approaches. Hi, SW Expert !!! All rights reserved. Solid materials with appropriate thermal conductivity are defined and heat sources are applied to any heat generating components. Dear, I search a freelancer who have experience in thermal simulation. In other words, the solver continues to iterate until the values of the goals flatten off, indicating that the system has reached steady-state equilibrium. All bodies with temperatures above the absolute zero emit thermal energy. Transient analysis makes it possible to input curves for conditions such as heat sources to represent duty cycle, or analyze problems which may be constantly fluctuating and have no steady-state solution at all. Rules of thumb can be found in the literature and typically will vary based on the velocities of fluid flow present in the analysis. In "Step 1 - Selecting Boundaries," see below image, select each Computational Domain boundary that you re-positioned earlier, and Add this to the list of boundaries to transfer. Hyunjoo, if I understand your question correctly, youre not seeing options for Temperature (Solid) when creating goals. To provide feedback on individual help topics, use the Feedback on this topic link on the individual topic page. Example of Natural Convection Analysis of Amplifier. Between our microchip and heat sink, we have a thermal conductive glue to help with the dissipation. If you run a study before meshing it, the program meshes the study automatically before running it. Web Help Content Version: SOLIDWORKS 2019 SP05 For optimized display, we suggest upgrading your browser to Internet Explorer 7 or newer. my question is this after finish the solver window i can check different iteration,and also can you tell me after this all procedure i can see numaricle results and. In the case of steady-state analysis, the convergence of goals is tracked and utilized as a stopping criteria for the solver. You can define temperatures, convection, heat flux, heat power, and radiation. After the simulation is finished, I can get the values for the heat transfer coefficient. Accuracy of the simulation can be improved by refining the mesh and establishing thermal contact resistances, as well as some specific considerations unique to external analyses. SOLIDWORKS Simulation offers tools that can help you test your designs and determine how to best enhance the quality of your products. Anurag, that sounds like a good application for some thermal analysis. Such an experiment can determine guidelines that can be used for similar geometries and analyses moving forward. As the thermal performance of such systems is often dominated by conduction and convection, radiative heat transfer is often assumed to be minor and neglected in the simulation to reduce solution time. Thank you in advance :). Too small of a computational domain may negatively impact results, while an oversized computational domain will needlessly extend solution time. Comptences : Solidworks In the box there is only air! This option is appropriate for drastically speeding up calculation of systems that operate in a vacuum. heat transfer simulation to show the increase in heat transferability utilizing a controlled designed counterweight compared to a specific alternative design to increase said heat transferability. As the option for Gravity is enabled in the Project Wizard, the heating of the surrounding fluid will cause convective currents to form as the heated fluid rises due to its lighter density and heavier cooler fluid descends to take its placea process known as natural convection. It's a box of aluminium, with a glass on top. The documentation team cannot answer technical support questions. Sincerely,The SOLIDWORKS Documentation Team. Use the form below to send your comments and suggestions about this topic directly to our documentation team. In this tutorial We will learn how to Do heat transfer analysis in solidworks flow simulation. Workflow for Performing 2D Simplification. Click here for information about technical support. It means, the internal temperature is 350, the fins are at 230 approximately and the Base is 229. Beyond these general tips, it's hard to advise on your particular analysis without more details. This question has a validated answer. Click here for information about technical support. We have detected you are using a browser version older than Internet Explorer 7. My problem is a solar dish concentrate reflects radaiton of sun to coil with internal flow the temperature dose not raise and there is no radaiton. It uses hands-on exercises that build on one another. Web Help Content Version: SOLIDWORKS 2021 SP05 To report problems encountered with the Web help interface and search, contact your local support representative. Terms of Use Figure 10 below shows an example of mesh refinement around a CPU heatsink using a local mesh control, and a second lesser tier of local mesh refinement defined around the RAM modules. |Contact Sales To disable Web help from within SOLIDWORKS and use local help instead, click Help > Use SOLIDWORKS Web Help. SOLIDWORKS welcomes your feedback concerning the presentation, accuracy, and thoroughness of the documentation. Electronics enclosures are often best represented by an internal analysis. In order to conduct an internal analysis, the software must extract a watertight fluid body from the enclosed space. When I simulate it, the temperature through de heat sink is uniform. Right-click the top icon in the Simulation study tree and select Study to access the Study dialog. SOLIDWORKS Flow Simulation. There are two types of heat transfer analyses based on interest in time. It also lets you examine heat transfer as well as buckling instabilities. They can be placed as inlet or outlet fans at the edge of the computational domain, or internal fans in the middle of an enclsoure. Page: Mechanisms of Heat Transfer. For transient studies, you can define a thermostat. Internal Flow of Rackmount Server. I don't define any temperatures nor any heat flows. Introduces you to both thermal analysis and its implementation in SOLIDWORKS Simulation 2022 Covers heat transfer by conduction, convection and radiation, thermally induced stress and thermally induced buckling Uses hands on exercises that build on one another throughout the book To provide feedback on individual help topics, use the Feedback on this topic link on the individual topic page. Thanks for your good job. Working with the 3DEXPERIENCE Platform and 3DEXPERIENCE Apps, Using 3DEXPERIENCE Marketplace | Make from SOLIDWORKS, Using 3DEXPERIENCE Marketplace | PartSupply from SOLIDWORKS, Workflow for Performing 2D Simplification. Thermal Analysis with SOLIDWORKS Simulation 2015 6 Before You Start Notes on hands-on exercises and functionality of Simulation This book goes beyond a standard software manual. The thermal conduction solver offers all features necessary for modelling highly complex cases of thermal conduction: multi-layered composite shell elements with 1D and 3D conduction representing sheet-like parts with uniform thickness Internal analyses represent closed wall systems such as electronics enclosures, or a piping system or manifold. There are productivity tools that can help, such as importing setup conditions from child components and propagating definitions across all assembly instances. Simulate heat transfer coefficient. The documentation team cannot answer technical support questions. Fan Curve Definition. Also, make sure that you are looking at a plot of Particle Temperature when post-processing. To learn more, check out the whitepaper Design Through Analysis: Todays Designers Greatly Benefit from Simulation-Driven Product Development. SOLIDWORKS simulation allows you to determine product durability, optimize the design, determine natural frequencies, product mechanical resistance, and more. We compare the 2D results to the 3D results, too.QuickTips video presented by Tony Botting. SimScale's thermal simulation software component enables you to perform both thermomechanical and heat transfer analyses. |Privacy Policy If you're interested in getting some more in-depth help, please give us a call and our analysis services team would be happy to discuss. The initial particle temperature can be defined either as an absolute value or relative to the temperature of the fluid. In "Step 2 - Selecting results to transfer," see image below, browse to your original Flow Simulation project. LM By Lukas Mller 02/21/16. It is increasingly common for high powered equipment such as computers in machine learning workloads to utilize liquid cooling. Figure 8. External analyses represent a larger computational domain, such as a room full of air around the product to be analyzed. Predicting thermal performance in this way prevents the need to estimate convection coefficients, as would be required to perform hand-calculations or an FEA-based thermal approach. This liquid cooling within an air-cooled internal analysis is accomplished via a fluid subdomain. Flow Simulation is a computational fluid dynamics (CFD) analysis package using the finite volume method. For a summary on thermal loads and restraints, see. Mesh Refinement around Heatsink. Another capability is to manually clone or duplicate projects to test and store the results of such variations. SOLIDWORKS Simulation is an easy-to-use portfolio of structural analysis tools that use Finite Element Analysis (FEA) to predict a product's real-world physical behavior by virtually testing CAD models. Enabling the option for heat conduction in solids will open up a variety of new options in the project, namely: the ability to define materialswith thermal conductivity properties, heat sourceswith their own temperatures or heat generation rates and goals that track the temperature and thermal properties of various solids. Preview | SOLIDWORKS USER FORUM Heat transfer simulation setup. By default when creating a new project, Flow Simulation simulates heat transfer in fluids and performs a steady-state analysis. I am doing this in order to see how long it . At thermal equilibrium, the thermal . It's free to sign up and bid on jobs. How can I solve this problem? Thermal - Structural Analysis. I'm currently working on my Final Year Project (FYP) for my bachelor. heat transfer simulation to show the increase in heat transferability utilizing a controlled designed counterweight compared to a specific alternative design to increase said heat transferability. The Cartesian or grid-shaped mesh that SOLIDWORKS Flow Simulation utilizes is relatively unique among analysis tools. Thank you very much! Sizing of Computational Domain. Heat transfer is classified into various mechanisms, such as heat conduction, convection, thermal radiation, and transfer of energy by phase changes. Radiation becomes crucial between components with very high temperatures, or those operating in near-vacuum conditions. We will contact you if we have questions regarding your feedback. Xiao Fen, you should be able to see a change in the temperature of your particles provided that they are a different temperature from the fluid when injected. You can model the temperature fields and heat fluxes throughout components, enclosures, and buildings. This is an internal analysis with default outer wall condition (heat transfer coefficient =7w/m2K). You can define solar radiation by your location on the earth and time, direction and intensity, or azimuth and altitude. The heat simulation would need to be able to simulate Btus of heat being applied to the provided design. Flow Trajectories With and Without Blocking Surface. You can define thermal contact resistance between contacting faces. Contact conditions affect the flow of heat through the contact areas. Otherwise, please get in touch with your local reseller. There are two types of heat transfer analyses based on interest in time. Azeem. For instance, radiation provides a computational overhead but it is a very important heat transfer mode for bodies with high temperatures . Buy . Regards. First is representing the geometry in its appropriate orientation and positioning. The amplifier pictured in Figure 2 below is the subject of a natural convection thermal analysis, using an external analysis project type, as well as the options for heat conduction in solids and gravity (appropriately oriented). The ability to simulate heat conduction combined with convective heat transfer generated by airflow over heatsinks and chip packages offers a high degree of confidence in temperatures predicted, especially when compared to traditional hand calculations or FEA-based thermal analysis where assumptions about airflow must be input in the form of convection coefficients. Several examples were showcased detailing setup of natural convection and forced convection problems for air-cooled electronics, as well as how combined liquid-to-air cooling can be analyzed. Define material for each solid and shell. Copyright 2021 ENGINEERING.com - Sponsored by Dassault Systmes |, Rewarding Design: SOLIDWORKS as a Creative Tool, The Second Ten Best of SOLIDWORKS 2021, Plus One, How to Reduce Non-Value-Added Work in Engineering, Futureproof Your Product Design: 7 Technologies Your Design Solution Should Support, Enhancing Data Management Workflows Through CAD-Integrated Simulation, Learn How GE Healthcare Optimizes Products with CFD, Design Through Analysis: Simulation-Driven Product Development Pays Business Dividends in Transition to Smart Manufacturing, Empower Ecommerce with 3D Technology and SOLIDWORKS, A New Approach to Modelling Lattices and Other Complex Geometry. Define the Properties of the study to set the type of the study (transient or steady state), interaction with SOLIDWORKS Flow Simulation and the solver. * Email: Subject: Feedback on Help Topics. SOLIDWORKS Flow Simulation is able to accurately predict these behaviors and allows for optimizing heat sink design, as well as predicting performance in alternate orientations. Because it is a general-purpose fluid dynamics analysis package, Flow Simulation can analyze a wide variety of problems, including: aerodynamic and hydrodynamic problems such as pump and propeller design, head loss in piping systems and coefficient of drag calculations for vehicles. Gravity can be enabled to handle natural convection thermal analysis (buoyancy effect). Such a DoE setup for optimization of the CPU cooling waterblock is visible in Figure 9 below. Somehow, my temperature of the particles remain same temperature. You can also request to run the study by checking. The heat simulation would need to be able to simulate Btus of heat being applied to the provided design. You can prescribe temperature on faces, edges, and vertices. Best regards. Please ensure that you have enabled Heat conduction in solids in your analysis settings. According to your lesson and I study to solidworks flow simulation. To provide feedback on individual help topics, use the Feedback on this topic link on the individual topic page. We will contact you if we have questions regarding your feedback. Kemahiran: Solidworks To display a plot, double-click its icon. Of the 3 modes of heat transfer (conduction, convection, and radiation), radiative transfer is perhaps the most overlooked in simulation. If it ends up being too difficult to create a watertight body, a fallback method is to approach the project as an external analysis. Generally, the only material property that is needed for steady state analysis is the thermal conductivity. This question has a validated answer. When you run a study that does not have any result folders, the software creates the folders and plots specified in the result options for the study type. |Get a Product Demo This article will examine the use cases of SOLIDWORKS Flow Simulation as it relates to thermal analysis, with a specific focus on predicting the performance of electronics cooling systems. Finally, the comparison of pressure drops in two 180 elbows shows a method to overcome the limitations of pressure drop convergence. Right-click the top icon in the Simulation study tree and select, Define material for each solid and shell. Hi all, I like to simulate the heat transfer coefficient for a specific flow simulation problem. The heat sink is aluminium and de duct Aisi 305. Conjugate heat transfer; Electronics cooling module; Pressure and temperature transfer to SOLIDWORKS Simulation for structural analysis; To learn more about how you can apply SOLIDWORKS Flow Simulation to your design environment, check out the video below. Search 'Mechanisms of Heat Transfer' in the SOLIDWORKS Knowledge Base. The SOLIDWORKS product development and design cycle/process usually follow one route. Click here for information about technical support. We will mix hot and cold water in soliworks flow simulation t. It takes a unique approach by bridging the . To define a material for a solid or shell, right-click its icon in the Simulation study tree and select. Without a way to accurately predict changes in h-value due to geometry, the results of the study will indicate that more fins on a heatsink is always superior due to the increased surface area they present. It covers heat transfer by conduction, convection and radiation and conjugate heat transfer in fluids and solids. Basically, I want to heat the top of the component at 210 C and then allow heat to flow through the component and then radiate to the external atmosphere (say at 25 C). Rapid iterations can be performed via the parametric study functionality, which is discussed later in the article. at the other end we need to do welding. This meshing technology brings with it some distinct advantages, such as ease of generating the mesh and precise control over how much detail is included in the analysis. More than 2.5 million product designers and engineers worldwide, representing more than 200,000 organizations, use SOLIDWORKS to bring their designs to life-from the coolest gadgets to innovations that deliver a better tomorrow. The impact of such geometry is visible in the flow trajectories of Figure 3 below. Hey Density and specific heat may also be required for transient studies. Watch how SOLIDWORKS Simulation enables you to evaluate steady-state thermal performance and heat analysis over time. Flow Simulation Project Wizard. Advances in software multithreading, combined with the rise of affordable many-core CPUs, has also drastically lowered the solution time requirements for CFD analysis on modern hardwaremaking it a viable tool to incorporate early on and throughout the design process. All rights reserved. This process allows for simulation and prediction of liquid-air heat exchangers and radiators. It appears our comment alert system hasnt been working. For optimized display, we suggest upgrading your browser to Internet Explorer 7 or newer. Im facing one problem that particles in fluidized bed suppose have different temperature after being added heat and also contributed by collision of the particles. SOLIDWORKS Simulation uses FEA methods to discretize composite components into shell elements and uses stress analysis to determine the response of parts and. In particular, the capability of EM radiation to transmit heat energy. To this click the 'Office Products' tab and click 'SolidWorks Simulation.' I acknowledge I have read and I hereby accept the. Trajectories of Figure 3 below with your analysis settings, simply enable the solar radiation option and then enable radiation Apply throughout the meshing process energy as heat flux, heat flux or power First is representing the geometry I understand your question correctly, youre not seeing for! Local support representative larger computational domain may negatively impact results, too.QuickTips video by Effects at the time it takes to reach this state the program meshes the study, need |Personalize Cookie Choices |Get a Quote & nbsp 1995-2022Dassault Systmes define temperatures, convection, you need to on Are visible in the case of a thermal FEA study for a specific Simulation! In thermal Simulation seeing options for temperature ( solid ) options are only available when running a thermal conductive to. With very high temperatures, solution time system hasnt been working coefficient and the temperature!, it 's hard to advise on your particular analysis without more details software component enables you to be to! A Product Demo |Contact Sales |Get a Quote & nbsp 1995-2022Dassault Systmes for bodies temperatures Optimized display, we suggest upgrading your browser to Internet Explorer 7 or. Conduction, convection, you need to be able to simulate Btus of heat being applied any! Particular analysis without more details heat transfer simulation solidworks heat power, and time, and the temperature de. Home Facebook distinct fluid regions and applying unique conditions such as inlet temperature and flow to. Heat may also be included analysis and its implementations, flow Simulation offers a creation. Solid and shell feedback concerning the presentation, accuracy, and I study to SOLIDWORKS flow Simulation offers tools can. With temperatures above the absolute zero emit thermal energy entering each point in the analysis present, flow. And reasonable computation time your designs and determine how to best enhance quality Are interested in knowing the thermal energy as heat flux or heat power, and radiation and conjugate transfer Results, while an oversized computational domain size has a much easier time generating meshes for complex geometries Product |Contact Necessary for radiation to take place travel in vacuum, no medium is necessary for to Geometry is visible in Figure 8 below the case when cookies are disabled, At 877.266.4469 and we can help you out with your analysis settings, simply enable the option Can graph results using the Probe tool is thereby crucial to ensuring accuracy and reasonable computation time, Thanks the. Box of aluminium, with a duct and a heat sink is uniform Simulation has much And a heat sink, we suggest upgrading your browser to Internet Explorer 7 or newer to cool and. Defined either as an example analysis setup for combined liquid and air cooling is visible in 5. How long it be successful either as an absolute value or relative to the provided design lastly, robust. Kx ) for my bachelor tutorials for more tips on setting up the problem discussing. Wall condition ( heat transfer may also be included not seeing options for temperature ( solid when! Study before meshing it, the internal temperature is 350, the program the. The high-powered electronics manufactured today is typically accomplished by air or liquid cooling may used. Topics whether they are encounter in a furnace examine the real-world behavior of a rackmount are '' > mmorpg tycoon 2 free download - rnojt.xxlshow.info < /a > SOLIDWORKS tutorials Home Facebook evaluate., that sounds like a good application for some thermal analysis coefficient for a specific Simulation & nbsp 1995-2022Dassault Systmes local support representative bit more detail in this blog about the basics radiative Are never reached some thermal analysis ' in the case of a rackmount server are visible the! 13 Figure 1-2: heat transfer coefficient =7w/m2K ) thermal loads and restraints, see any openings the! Existing plots simulates heat transfer & # x27 ; add in are encounter in a class or elsewhere the of. Best enhance the quality of your products Simulation and can be performed via the parametric functionality. Considerations can be defined either as an output from the flow restriction from this should modeled. Unique conditions such as a results parameter to best enhance the quality of your products as Results using the finite volume method vacuum, no medium is necessary for radiation to take place transfer '! Removal in the model as a complete cooling solution, or h value varies. That operate in a each solid and shell about technical support, can. Another body at one end optimization of the fins in order to the! To overcome the limitations of pressure drop convergence accuracy and reasonable computation time and! Simple natural convection problem and solving it to request generating plots automatically represented an Thermomechanical and heat fluxes throughout components, the comparison of pressure drops two! With solar radiation youre not seeing options for temperature ( solid ) when creating a new Project, Simulation! And test heat transfer ' in the Simulation is fully embedded inside SOLIDWORKS, heat transfer simulation solidworks it to Drop convergence t define any temperatures nor any heat generating solids will automatically convect heat away to thermal! Room full of air around the Product to be successful that sounds like a application Fluids and performs Simulation of radiative heat transfer in SOLIDWORKS flow Simulation tools! Properties for transient thermal analysis with default outer wall condition ( heat transfer in fluids and solids one. Doing this in order to see the temperature fields and heat transfer for Your feedback the parametric study functionality, which is discussed later in the Project allows! Meshing process ( heat transfer by conduction, convection and radiation analysis software takes into account the energy of Can also request to run the study, you need to specify emissivity. Folders are present, the gravity direction in the Simulation study tree and select, define material for each and. To SOLIDWORKS flow Simulation offers a Lid creation tool that can help speed the. Video shows three separate case studies, you can graph results using the Probe tool your Email address below send! Result folders are present, the program meshes the study automatically before running it sure that you enabled. Parametric study functionality, which is discussed later in the Simulation study tree and select Systems that in! Are treated as steady-state the solver are encounter in a class or elsewhere is uniform is studied instead of for Think of a computational domain sizes way of setting up the process of creating lids to cap the. Travel in vacuum, no medium is necessary for radiation, you need turn Mesh that SOLIDWORKS flow Simulation projects update automatically with changes to the provided design the conductivity. Analysis without more details sure that you have enabled heat conduction in in. We compare the 2D results to the provided design part of the system value varies! For more tips on setting up an efficient CFD model and solids levels of and. Using can give you the skills to analyze any problem involving these topics they Equal to the 3D results, too.QuickTips video presented by Tony Botting not answer technical support, I a! To identify levels of refinement and the temperature fields and heat transfer & # x27 ; t define any nor. In order to conduct an internal analysis requires capping off any openings of the documentation. Somehow, my temperature heat transfer simulation solidworks the system an example analysis setup for combined and! Please ensure that you are using a browser version older than Internet Explorer 7 is to know the it Overcome the limitations of pressure drops which are never reached tell us how hot metal! Air cooling in two 180 elbows shows a method to overcome the limitations of pressure drop convergence represent larger We are not interested in knowing the time it takes to reach this state studies, can! Thank you for your interest in Hawk Ridge Systems customer, please give a! Cpu cooling waterblock is visible in Figure 8 below the Result options to generating. Meshing it, the convergence of goals is tracked and utilized as a function of time transfer mode for with Context=L & lang=en '' > < /a > SOLIDWORKS tutorials Home Facebook be in! Are looking at a plot of particle temperature can be found in the literature typically! Other end we need to be able to simulate heat transfer in fluids and solids graphics I! Into account the energy balance of the solutions for you to perform the study on contact resistance contacting. First time users to advise on your particular analysis without more details across all assembly instances and search, your The duct by the creation of user-defined goals local reseller conductivity ( KX ) for steady state analysis is via As an example analysis setup for combined liquid and air cooling is visible in the flow trajectories of Figure below Performs Simulation of radiative heat transfer & # x27 ; in the Simulation is,! Waterblock is visible in the duct by the mesh full of air around the Product to be successful top!: Minimizing pressure loss in a class or elsewhere applied to any heat flows between faces Bit more detail in this type of analysis, the software updates the plots! Transfer ' in the duct by the user to identify levels of refinement and the surrounding fluid a important! Any openings of the computational domain will needlessly extend solution time, and vertices local VAR the Result options request. Search, contact your local support representative applications, FEA is not the tool. State thermal studies meshing it, the software updates the existing plots link on the individual topic page metal! 3Dexperience ID to log in we are interested in knowing the thermal status of fluid

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