�ݺ�ߣshows by User: SimScale

�ݺ�ߣshows by User: SimScale / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: SimScale / Mon, 31 May 2021 10:39:59 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: SimScale FEA for Early Stage Design /slideshow/fea-for-early-stage-design/248784351 simscaledemoanddiscussiononfeaforearlystagedesign-210531103959
Explore an FEA analysis case in SimScale's Demo and Discussion on simulation for early-stage design. Our simulation specialist demonstrates how to analyze the stress and elastic deformation of a grappler lifting assembly. From importing the geometry to setting up different load and constraint scenarios, we showcase how engineers can quickly and easily evaluate different iterations and assess the mechanical performance of their designs.]]>
Explore an FEA analysis case in SimScale's Demo and Discussion on simulation for early-stage design. Our simulation specialist demonstrates how to analyze the stress and elastic deformation of a grappler lifting assembly. From importing the geometry to setting up different load and constraint scenarios, we showcase how engineers can quickly and easily evaluate different iterations and assess the mechanical performance of their designs.]]> Mon, 31 May 2021 10:39:59 GMT /slideshow/fea-for-early-stage-design/248784351 SimScale@slideshare.net(SimScale) FEA for Early Stage Design SimScale Explore an FEA analysis case in SimScale's Demo and Discussion on simulation for early-stage design. Our simulation specialist demonstrates how to analyze the stress and elastic deformation of a grappler lifting assembly. From importing the geometry to setting up different load and constraint scenarios, we showcase how engineers can quickly and easily evaluate different iterations and assess the mechanical performance of their designs. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/simscaledemoanddiscussiononfeaforearlystagedesign-210531103959-thumbnail.jpg?width=120&height=120&fit=bounds" /> Explore an FEA analysis case in SimScale's Demo and Discussion on simulation for early-stage design. Our simulation specialist demonstrates how to analyze the stress and elastic deformation of a grappler lifting assembly. From importing the geometry to setting up different load and constraint scenarios, we showcase how engineers can quickly and easily evaluate different iterations and assess the mechanical performance of their designs.

FEA for Early Stage Design from SimScale

]]> 353 0 https://cdn.slidesharecdn.com/ss_thumbnails/simscaledemoanddiscussiononfeaforearlystagedesign-210531103959-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Hybrid Ventilation using CFD Simulation in the Cloud /SimScale/hybrid-ventilation-using-cfd-simulation-in-the-cloud hvrzero-netzero-simscalepresention-250521-210526163137
Monodraught and SimScale demonstrate how computational fluid dynamics is used to design low-energy hybrid ventilation and cooling systems. Monodraughts products integrate intelligent control strategies that reduce energy demand by 90%. Learn how they leverage SimScale's platform in product design and use engineering simulation in the cloud to design some of the lowest energy, low carbon HVAC solutions on the market. ]]>
Monodraught and SimScale demonstrate how computational fluid dynamics is used to design low-energy hybrid ventilation and cooling systems. Monodraughts products integrate intelligent control strategies that reduce energy demand by 90%. Learn how they leverage SimScale's platform in product design and use engineering simulation in the cloud to design some of the lowest energy, low carbon HVAC solutions on the market. ]]> Wed, 26 May 2021 16:31:37 GMT /SimScale/hybrid-ventilation-using-cfd-simulation-in-the-cloud SimScale@slideshare.net(SimScale) Hybrid Ventilation using CFD Simulation in the Cloud SimScale Monodraught and SimScale demonstrate how computational fluid dynamics is used to design low-energy hybrid ventilation and cooling systems. Monodraughts products integrate intelligent control strategies that reduce energy demand by 90%. Learn how they leverage SimScale's platform in product design and use engineering simulation in the cloud to design some of the lowest energy, low carbon HVAC solutions on the market. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/hvrzero-netzero-simscalepresention-250521-210526163137-thumbnail.jpg?width=120&height=120&fit=bounds" /> Monodraught and SimScale demonstrate how computational fluid dynamics is used to design low-energy hybrid ventilation and cooling systems. Monodraughts products integrate intelligent control strategies that reduce energy demand by 90%. Learn how they leverage SimScale's platform in product design and use engineering simulation in the cloud to design some of the lowest energy, low carbon HVAC solutions on the market.

Hybrid Ventilation using CFD Simulation in the Cloud from SimScale

]]> 139 0 https://cdn.slidesharecdn.com/ss_thumbnails/hvrzero-netzero-simscalepresention-250521-210526163137-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Simulation for Passively Cooled LED Design /SimScale/simulation-for-passively-cooled-led-design illuminatelightingseries-workshop2-210423135717
Workshop #2 of our Illuminate Lighting series shows engineers and designers how to set up and run a thermal analysis of a passively cooled LED. Use SimScale software and its conjugate heat transfer (CHT) solver to run the simulation, jump into the post-processor and evaluate the results. For a recording of the session and to follow along, step-by-step, click here: https://bit.ly/3aCpIFQ]]>
Workshop #2 of our Illuminate Lighting series shows engineers and designers how to set up and run a thermal analysis of a passively cooled LED. Use SimScale software and its conjugate heat transfer (CHT) solver to run the simulation, jump into the post-processor and evaluate the results. For a recording of the session and to follow along, step-by-step, click here: https://bit.ly/3aCpIFQ]]> Fri, 23 Apr 2021 13:57:16 GMT /SimScale/simulation-for-passively-cooled-led-design SimScale@slideshare.net(SimScale) Simulation for Passively Cooled LED Design SimScale Workshop #2 of our Illuminate Lighting series shows engineers and designers how to set up and run a thermal analysis of a passively cooled LED. Use SimScale software and its conjugate heat transfer (CHT) solver to run the simulation, jump into the post-processor and evaluate the results. For a recording of the session and to follow along, step-by-step, click here: https://bit.ly/3aCpIFQ <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/illuminatelightingseries-workshop2-210423135717-thumbnail.jpg?width=120&height=120&fit=bounds" /> Workshop #2 of our Illuminate Lighting series shows engineers and designers how to set up and run a thermal analysis of a passively cooled LED. Use SimScale software and its conjugate heat transfer (CHT) solver to run the simulation, jump into the post-processor and evaluate the results. For a recording of the session and to follow along, step-by-step, click here: https://bit.ly/3aCpIFQ

Simulation for Passively Cooled LED Design from SimScale

]]> 135 0 https://cdn.slidesharecdn.com/ss_thumbnails/illuminatelightingseries-workshop2-210423135717-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Design Buildings Faster by Harnessing the Power of the Cloud /slideshow/design-buildings-faster-by-harnessing-the-power-of-the-cloud/244734311 designbuildingsfasterbyharnessingthepowerofthecloud-210319102019
SimScale is a cloud engineering simulation platform accessed from a web browser that offers engineers and designers a powerful CFD tool to perform thermal, wind, and energy analyses. This presentation shows how Thornton Tomasetti used the SimScale API to develop an in-house app that integrates Grasshopper with SimScale to enable early-stage wind and thermal comfort analyses and optimize existing workflows. More resources from SimScale on computational fluid dynamics and simulation: What is CFD | Computational Fluid Dynamics?: https://bit.ly/3cRv8wW What Are Boundary Conditions?: https://bit.ly/30YOrza CFD Modeling, Analysis, and Online Simulation For Beginners: https://bit.ly/3lt2iam ]]>
SimScale is a cloud engineering simulation platform accessed from a web browser that offers engineers and designers a powerful CFD tool to perform thermal, wind, and energy analyses. This presentation shows how Thornton Tomasetti used the SimScale API to develop an in-house app that integrates Grasshopper with SimScale to enable early-stage wind and thermal comfort analyses and optimize existing workflows. More resources from SimScale on computational fluid dynamics and simulation: What is CFD | Computational Fluid Dynamics?: https://bit.ly/3cRv8wW What Are Boundary Conditions?: https://bit.ly/30YOrza CFD Modeling, Analysis, and Online Simulation For Beginners: https://bit.ly/3lt2iam ]]> Fri, 19 Mar 2021 10:20:18 GMT /slideshow/design-buildings-faster-by-harnessing-the-power-of-the-cloud/244734311 SimScale@slideshare.net(SimScale) Design Buildings Faster by Harnessing the Power of the Cloud SimScale SimScale is a cloud engineering simulation platform accessed from a web browser that offers engineers and designers a powerful CFD tool to perform thermal, wind, and energy analyses. This presentation shows how Thornton Tomasetti used the SimScale API to develop an in-house app that integrates Grasshopper with SimScale to enable early-stage wind and thermal comfort analyses and optimize existing workflows. More resources from SimScale on computational fluid dynamics and simulation: What is CFD | Computational Fluid Dynamics?: https://bit.ly/3cRv8wW What Are Boundary Conditions?: https://bit.ly/30YOrza CFD Modeling, Analysis, and Online Simulation For Beginners: https://bit.ly/3lt2iam <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/designbuildingsfasterbyharnessingthepowerofthecloud-210319102019-thumbnail.jpg?width=120&height=120&fit=bounds" /> SimScale is a cloud engineering simulation platform accessed from a web browser that offers engineers and designers a powerful CFD tool to perform thermal, wind, and energy analyses. This presentation shows how Thornton Tomasetti used the SimScale API to develop an in-house app that integrates Grasshopper with SimScale to enable early-stage wind and thermal comfort analyses and optimize existing workflows. More resources from SimScale on computational fluid dynamics and simulation: What is CFD | Computational Fluid Dynamics?: https://bit.ly/3cRv8wW What Are Boundary Conditions?: https://bit.ly/30YOrza CFD Modeling, Analysis, and Online Simulation For Beginners: https://bit.ly/3lt2iam

Design Buildings Faster by Harnessing the Power of the Cloud from SimScale

]]> 181 0 https://cdn.slidesharecdn.com/ss_thumbnails/designbuildingsfasterbyharnessingthepowerofthecloud-210319102019-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Fast & Easy Electronics Thermal Management /slideshow/fast-easy-electronics-thermal-management/244730577 fasteasyelectronicsthermalmanagement-210319093029
Cloud-based simulation offers engineers a powerful CFD tool to assess the key variables that influence cooling, airflow, and thermal efficiency for optimizing the thermal and energy performance of electronics components. Forwiz System. Co., Ltd. is a South Korean company specialized in the field of SDN (Software Defined Networks) and electronics cooling. This webinar showcases how Forwiz uses SimScale to optimize their designs, enabling quick and accurate early-stage simulation and electronics cooling analyses. More SimScale resources on electronics cooling: What Is Heat Transfer?: https://bit.ly/3tARTwa What is CFD | Computational Fluid Dynamics?: https://bit.ly/3lwhrrj What Are the Navier-Stokes Equations?: https://bit.ly/3qYSKVz How To Calculate Heat Dissipation In Watts?: https://bit.ly/3s4cLeG ]]>
Cloud-based simulation offers engineers a powerful CFD tool to assess the key variables that influence cooling, airflow, and thermal efficiency for optimizing the thermal and energy performance of electronics components. Forwiz System. Co., Ltd. is a South Korean company specialized in the field of SDN (Software Defined Networks) and electronics cooling. This webinar showcases how Forwiz uses SimScale to optimize their designs, enabling quick and accurate early-stage simulation and electronics cooling analyses. More SimScale resources on electronics cooling: What Is Heat Transfer?: https://bit.ly/3tARTwa What is CFD | Computational Fluid Dynamics?: https://bit.ly/3lwhrrj What Are the Navier-Stokes Equations?: https://bit.ly/3qYSKVz How To Calculate Heat Dissipation In Watts?: https://bit.ly/3s4cLeG ]]> Fri, 19 Mar 2021 09:30:29 GMT /slideshow/fast-easy-electronics-thermal-management/244730577 SimScale@slideshare.net(SimScale) Fast & Easy Electronics Thermal Management SimScale Cloud-based simulation offers engineers a powerful CFD tool to assess the key variables that influence cooling, airflow, and thermal efficiency for optimizing the thermal and energy performance of electronics components. Forwiz System. Co., Ltd. is a South Korean company specialized in the field of SDN (Software Defined Networks) and electronics cooling. This webinar showcases how Forwiz uses SimScale to optimize their designs, enabling quick and accurate early-stage simulation and electronics cooling analyses. More SimScale resources on electronics cooling: What Is Heat Transfer?: https://bit.ly/3tARTwa What is CFD | Computational Fluid Dynamics?: https://bit.ly/3lwhrrj What Are the Navier-Stokes Equations?: https://bit.ly/3qYSKVz How To Calculate Heat Dissipation In Watts?: https://bit.ly/3s4cLeG <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/fasteasyelectronicsthermalmanagement-210319093029-thumbnail.jpg?width=120&height=120&fit=bounds" /> Cloud-based simulation offers engineers a powerful CFD tool to assess the key variables that influence cooling, airflow, and thermal efficiency for optimizing the thermal and energy performance of electronics components. Forwiz System. Co., Ltd. is a South Korean company specialized in the field of SDN (Software Defined Networks) and electronics cooling. This webinar showcases how Forwiz uses SimScale to optimize their designs, enabling quick and accurate early-stage simulation and electronics cooling analyses. More SimScale resources on electronics cooling: What Is Heat Transfer?: https://bit.ly/3tARTwa What is CFD | Computational Fluid Dynamics?: https://bit.ly/3lwhrrj What Are the Navier-Stokes Equations?: https://bit.ly/3qYSKVz How To Calculate Heat Dissipation In Watts?: https://bit.ly/3s4cLeG

Fast & Easy Electronics Thermal Management from SimScale

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0 Smart Data Center Design /slideshow/smart-data-center-design/243482757 smartdatacenterdesign-210226103934
SimScale is joined by NDC-GARBE Data Centers to explore the energy demands of the rapidly expanding data center industry. With sustainability as a key objective, NDC-GARBE uses high-fidelity, cloud-based simulation to design for optimal thermal management in their facilities. This presentation demonstrates how SimScale's CFD platform can enable data center simulation and validate designs for improving energy efficiency and data center cooling strategies. ]]>
SimScale is joined by NDC-GARBE Data Centers to explore the energy demands of the rapidly expanding data center industry. With sustainability as a key objective, NDC-GARBE uses high-fidelity, cloud-based simulation to design for optimal thermal management in their facilities. This presentation demonstrates how SimScale's CFD platform can enable data center simulation and validate designs for improving energy efficiency and data center cooling strategies. ]]> Fri, 26 Feb 2021 10:39:34 GMT /slideshow/smart-data-center-design/243482757 SimScale@slideshare.net(SimScale) Smart Data Center Design SimScale SimScale is joined by NDC-GARBE Data Centers to explore the energy demands of the rapidly expanding data center industry. With sustainability as a key objective, NDC-GARBE uses high-fidelity, cloud-based simulation to design for optimal thermal management in their facilities. This presentation demonstrates how SimScale's CFD platform can enable data center simulation and validate designs for improving energy efficiency and data center cooling strategies. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/smartdatacenterdesign-210226103934-thumbnail.jpg?width=120&height=120&fit=bounds" /> SimScale is joined by NDC-GARBE Data Centers to explore the energy demands of the rapidly expanding data center industry. With sustainability as a key objective, NDC-GARBE uses high-fidelity, cloud-based simulation to design for optimal thermal management in their facilities. This presentation demonstrates how SimScale's CFD platform can enable data center simulation and validate designs for improving energy efficiency and data center cooling strategies.

Smart Data Center Design from SimScale

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0 SimScale Demo and Discussion on External AEC /slideshow/simscale-demo-and-discussion-on-external-aec/242519354 simscaledemoanddiscussiononexternalaec-210210085855
This presentation is for architects, urban planners, environmental consultants, and engineers wanting to learn how to set up, simulate and evaluate Pedestrian Wind Comfort. The slides walk through SimScale's automated Pedestrian Wind Comfort workflow using an area of Bristol, UK as a test case. Learn the requirements of the geometry and discover how easy the simulation setup is within the SimScale workbench. The slides cover key results and share public projects for further exploration of Pedestrian Wind Comfort and wind simulation. ]]>
This presentation is for architects, urban planners, environmental consultants, and engineers wanting to learn how to set up, simulate and evaluate Pedestrian Wind Comfort. The slides walk through SimScale's automated Pedestrian Wind Comfort workflow using an area of Bristol, UK as a test case. Learn the requirements of the geometry and discover how easy the simulation setup is within the SimScale workbench. The slides cover key results and share public projects for further exploration of Pedestrian Wind Comfort and wind simulation. ]]> Wed, 10 Feb 2021 08:58:55 GMT /slideshow/simscale-demo-and-discussion-on-external-aec/242519354 SimScale@slideshare.net(SimScale) SimScale Demo and Discussion on External AEC SimScale This presentation is for architects, urban planners, environmental consultants, and engineers wanting to learn how to set up, simulate and evaluate Pedestrian Wind Comfort. The slides walk through SimScale's automated Pedestrian Wind Comfort workflow using an area of Bristol, UK as a test case. Learn the requirements of the geometry and discover how easy the simulation setup is within the SimScale workbench. The slides cover key results and share public projects for further exploration of Pedestrian Wind Comfort and wind simulation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/simscaledemoanddiscussiononexternalaec-210210085855-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation is for architects, urban planners, environmental consultants, and engineers wanting to learn how to set up, simulate and evaluate Pedestrian Wind Comfort. The slides walk through SimScale's automated Pedestrian Wind Comfort workflow using an area of Bristol, UK as a test case. Learn the requirements of the geometry and discover how easy the simulation setup is within the SimScale workbench. The slides cover key results and share public projects for further exploration of Pedestrian Wind Comfort and wind simulation.

SimScale Demo and Discussion on External AEC from SimScale

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0 SimScale Demo and Discussion on Internal AEC /slideshow/simscale-demo-and-discussion-on-internal-aec/242423914 simscaledemoanddiscussiononinternalaec-210208142749
Validation and improvement of HVAC systems is needed more than ever as building codes evolve to meet growing needs for sustainability, while still valuing occupant comfort. This presentation demonstrates how SimScale, simulation software in the cloud, has been used to evaluate the thermal comfort and HVAC system design for a classroom. ]]>
Validation and improvement of HVAC systems is needed more than ever as building codes evolve to meet growing needs for sustainability, while still valuing occupant comfort. This presentation demonstrates how SimScale, simulation software in the cloud, has been used to evaluate the thermal comfort and HVAC system design for a classroom. ]]> Mon, 08 Feb 2021 14:27:49 GMT /slideshow/simscale-demo-and-discussion-on-internal-aec/242423914 SimScale@slideshare.net(SimScale) SimScale Demo and Discussion on Internal AEC SimScale Validation and improvement of HVAC systems is needed more than ever as building codes evolve to meet growing needs for sustainability, while still valuing occupant comfort. This presentation demonstrates how SimScale, simulation software in the cloud, has been used to evaluate the thermal comfort and HVAC system design for a classroom. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/simscaledemoanddiscussiononinternalaec-210208142749-thumbnail.jpg?width=120&height=120&fit=bounds" /> Validation and improvement of HVAC systems is needed more than ever as building codes evolve to meet growing needs for sustainability, while still valuing occupant comfort. This presentation demonstrates how SimScale, simulation software in the cloud, has been used to evaluate the thermal comfort and HVAC system design for a classroom.

SimScale Demo and Discussion on Internal AEC from SimScale

]]> 198 0 https://cdn.slidesharecdn.com/ss_thumbnails/simscaledemoanddiscussiononinternalaec-210208142749-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 SimScale to IES for Building Simulation /slideshow/simscale-to-ies-for-building-simulation/240893944 simscaletoiesforbuildingsimulation-210104103520
SimScale teams up with Greenlite, a provider of regulatory and building analysis services, to explore how cloud-based CFD software can be used by engineers and architects to quickly and accurately calculate wind pressure coefficients for projects in the built environment. Importing simulation files into IES and thermal modeling tools gives designers an extra advantage to evaluate ventilation and possible overheating. ]]>
SimScale teams up with Greenlite, a provider of regulatory and building analysis services, to explore how cloud-based CFD software can be used by engineers and architects to quickly and accurately calculate wind pressure coefficients for projects in the built environment. Importing simulation files into IES and thermal modeling tools gives designers an extra advantage to evaluate ventilation and possible overheating. ]]> Mon, 04 Jan 2021 10:35:20 GMT /slideshow/simscale-to-ies-for-building-simulation/240893944 SimScale@slideshare.net(SimScale) SimScale to IES for Building Simulation SimScale SimScale teams up with Greenlite, a provider of regulatory and building analysis services, to explore how cloud-based CFD software can be used by engineers and architects to quickly and accurately calculate wind pressure coefficients for projects in the built environment. Importing simulation files into IES and thermal modeling tools gives designers an extra advantage to evaluate ventilation and possible overheating. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/simscaletoiesforbuildingsimulation-210104103520-thumbnail.jpg?width=120&height=120&fit=bounds" /> SimScale teams up with Greenlite, a provider of regulatory and building analysis services, to explore how cloud-based CFD software can be used by engineers and architects to quickly and accurately calculate wind pressure coefficients for projects in the built environment. Importing simulation files into IES and thermal modeling tools gives designers an extra advantage to evaluate ventilation and possible overheating.

SimScale to IES for Building Simulation from SimScale

]]> 493 0 https://cdn.slidesharecdn.com/ss_thumbnails/simscaletoiesforbuildingsimulation-210104103520-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Conjugate Heat Transfer Best Practices in SimScale /slideshow/conjugate-heat-transfer-best-practices-in-simscale/240733092 conjugateheattransferbestpracticesinsimscale-201230111658
This presentation goes over the best practices for conjugate heat transfer using the SimScale platform. Learn more about geometry preparation, material assignments, boundary conditions, result control tools, and post-processing for forced convection electronics applications. Follow along with the project here: https://www.simscale.com/projects/mbemis/conjugate_heat_transfer_webinar/ Watch the webinar recording here: https://www.youtube.com/watch?v=XVOiTuL9oe4]]>
This presentation goes over the best practices for conjugate heat transfer using the SimScale platform. Learn more about geometry preparation, material assignments, boundary conditions, result control tools, and post-processing for forced convection electronics applications. Follow along with the project here: https://www.simscale.com/projects/mbemis/conjugate_heat_transfer_webinar/ Watch the webinar recording here: https://www.youtube.com/watch?v=XVOiTuL9oe4]]> Wed, 30 Dec 2020 11:16:58 GMT /slideshow/conjugate-heat-transfer-best-practices-in-simscale/240733092 SimScale@slideshare.net(SimScale) Conjugate Heat Transfer Best Practices in SimScale SimScale This presentation goes over the best practices for conjugate heat transfer using the SimScale platform. Learn more about geometry preparation, material assignments, boundary conditions, result control tools, and post-processing for forced convection electronics applications. Follow along with the project here: https://www.simscale.com/projects/mbemis/conjugate_heat_transfer_webinar/ Watch the webinar recording here: https://www.youtube.com/watch?v=XVOiTuL9oe4 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/conjugateheattransferbestpracticesinsimscale-201230111658-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation goes over the best practices for conjugate heat transfer using the SimScale platform. Learn more about geometry preparation, material assignments, boundary conditions, result control tools, and post-processing for forced convection electronics applications. Follow along with the project here: https://www.simscale.com/projects/mbemis/conjugate_heat_transfer_webinar/ Watch the webinar recording here: https://www.youtube.com/watch?v=XVOiTuL9oe4

Conjugate Heat Transfer Best Practices in SimScale from SimScale

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0 Evaluating the Thermal Performance of Lighting Solutions With Cloud-Based CFD /slideshow/evaluating-the-thermal-performance-of-lighting-solutions-with-cloudbased-cfd/240731458 evaluatingthethermalperformanceoflightingsolutions-201230103207
Cloud-based simulation enables electronic engineers to test and evaluate how well their designs dissipate heat. Using LEDs as a test case, this presentation demonstrates how effective heatsink design improves cooling performance, ultimately mitigating gradual light loss and providing a longer product lifespan for lighting devices. SimScale, with its high performing conjugate heat transfer solver, accurately calculates how effectively heat generated by spotlight diodes is dissipated by multiple designs, even simultaneously. Watch the webinar recording here: https://www.youtube.com/watch?v=69LfxAxDoE0]]>
Cloud-based simulation enables electronic engineers to test and evaluate how well their designs dissipate heat. Using LEDs as a test case, this presentation demonstrates how effective heatsink design improves cooling performance, ultimately mitigating gradual light loss and providing a longer product lifespan for lighting devices. SimScale, with its high performing conjugate heat transfer solver, accurately calculates how effectively heat generated by spotlight diodes is dissipated by multiple designs, even simultaneously. Watch the webinar recording here: https://www.youtube.com/watch?v=69LfxAxDoE0]]> Wed, 30 Dec 2020 10:32:07 GMT /slideshow/evaluating-the-thermal-performance-of-lighting-solutions-with-cloudbased-cfd/240731458 SimScale@slideshare.net(SimScale) Evaluating the Thermal Performance of Lighting Solutions With Cloud-Based CFD SimScale Cloud-based simulation enables electronic engineers to test and evaluate how well their designs dissipate heat. Using LEDs as a test case, this presentation demonstrates how effective heatsink design improves cooling performance, ultimately mitigating gradual light loss and providing a longer product lifespan for lighting devices. SimScale, with its high performing conjugate heat transfer solver, accurately calculates how effectively heat generated by spotlight diodes is dissipated by multiple designs, even simultaneously. Watch the webinar recording here: https://www.youtube.com/watch?v=69LfxAxDoE0 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/evaluatingthethermalperformanceoflightingsolutions-201230103207-thumbnail.jpg?width=120&height=120&fit=bounds" /> Cloud-based simulation enables electronic engineers to test and evaluate how well their designs dissipate heat. Using LEDs as a test case, this presentation demonstrates how effective heatsink design improves cooling performance, ultimately mitigating gradual light loss and providing a longer product lifespan for lighting devices. SimScale, with its high performing conjugate heat transfer solver, accurately calculates how effectively heat generated by spotlight diodes is dissipated by multiple designs, even simultaneously. Watch the webinar recording here: https://www.youtube.com/watch?v=69LfxAxDoE0

Evaluating the Thermal Performance of Lighting Solutions With Cloud-Based CFD from SimScale

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0 Pressure Coefficients on Building Facades for Building Simulation /slideshow/pressure-coefficients-on-building-facades-for-building-simulation/240728345 pressurecoefficientsonbuildingfacades-201230092454
While accurate wind pressure coefficients are critical to evaluating building design, most engineering software for energy and thermal analysis oversimplifies treatment of wind pressure, which can adversely impact cooling, ventilation, overheating, and fresh air rates assessments. This presentation shows how SimScale provides accurate calculations of wind pressures, quickly and cost-efficiently, to deliver a more comprehensive evaluation of building performance. Watch the webinar recording here: https://www.youtube.com/watch?v=VU4-PN9PYDM]]>
While accurate wind pressure coefficients are critical to evaluating building design, most engineering software for energy and thermal analysis oversimplifies treatment of wind pressure, which can adversely impact cooling, ventilation, overheating, and fresh air rates assessments. This presentation shows how SimScale provides accurate calculations of wind pressures, quickly and cost-efficiently, to deliver a more comprehensive evaluation of building performance. Watch the webinar recording here: https://www.youtube.com/watch?v=VU4-PN9PYDM]]> Wed, 30 Dec 2020 09:24:54 GMT /slideshow/pressure-coefficients-on-building-facades-for-building-simulation/240728345 SimScale@slideshare.net(SimScale) Pressure Coefficients on Building Facades for Building Simulation SimScale While accurate wind pressure coefficients are critical to evaluating building design, most engineering software for energy and thermal analysis oversimplifies treatment of wind pressure, which can adversely impact cooling, ventilation, overheating, and fresh air rates assessments. This presentation shows how SimScale provides accurate calculations of wind pressures, quickly and cost-efficiently, to deliver a more comprehensive evaluation of building performance. Watch the webinar recording here: https://www.youtube.com/watch?v=VU4-PN9PYDM <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/pressurecoefficientsonbuildingfacades-201230092454-thumbnail.jpg?width=120&height=120&fit=bounds" /> While accurate wind pressure coefficients are critical to evaluating building design, most engineering software for energy and thermal analysis oversimplifies treatment of wind pressure, which can adversely impact cooling, ventilation, overheating, and fresh air rates assessments. This presentation shows how SimScale provides accurate calculations of wind pressures, quickly and cost-efficiently, to deliver a more comprehensive evaluation of building performance. Watch the webinar recording here: https://www.youtube.com/watch?v=VU4-PN9PYDM

Pressure Coefficients on Building Facades for Building Simulation from SimScale

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0 How to Model Trees with Porous Media — Pedestrian Wind Comfort /slideshow/how-to-model-trees-with-porous-media-pedestrian-wind-comfort/240672601 howtomodeltreeswithporousmediapedestrianwindcomfort-201229100932
For architects, engineers, urban planners, and other AEC professionals working in sustainability, porous media for LBM and Pedestrian Wind Comfort analysis can offer an insight into innovative wind effect mitigation solutions. This presentation demonstrates how to use SimScale's advanced features, like porous media, for urban flow simulation and, more specifically, to evaluate the effect of trees as windbreaks. Watch the webinar recording here: https://www.youtube.com/watch?v=r9c4t0tsvpA ]]>
For architects, engineers, urban planners, and other AEC professionals working in sustainability, porous media for LBM and Pedestrian Wind Comfort analysis can offer an insight into innovative wind effect mitigation solutions. This presentation demonstrates how to use SimScale's advanced features, like porous media, for urban flow simulation and, more specifically, to evaluate the effect of trees as windbreaks. Watch the webinar recording here: https://www.youtube.com/watch?v=r9c4t0tsvpA ]]> Tue, 29 Dec 2020 10:09:31 GMT /slideshow/how-to-model-trees-with-porous-media-pedestrian-wind-comfort/240672601 SimScale@slideshare.net(SimScale) How to Model Trees with Porous Media — Pedestrian Wind Comfort SimScale For architects, engineers, urban planners, and other AEC professionals working in sustainability, porous media for LBM and Pedestrian Wind Comfort analysis can offer an insight into innovative wind effect mitigation solutions. This presentation demonstrates how to use SimScale's advanced features, like porous media, for urban flow simulation and, more specifically, to evaluate the effect of trees as windbreaks. Watch the webinar recording here: https://www.youtube.com/watch?v=r9c4t0tsvpA <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/howtomodeltreeswithporousmediapedestrianwindcomfort-201229100932-thumbnail.jpg?width=120&height=120&fit=bounds" /> For architects, engineers, urban planners, and other AEC professionals working in sustainability, porous media for LBM and Pedestrian Wind Comfort analysis can offer an insight into innovative wind effect mitigation solutions. This presentation demonstrates how to use SimScale's advanced features, like porous media, for urban flow simulation and, more specifically, to evaluate the effect of trees as windbreaks. Watch the webinar recording here: https://www.youtube.com/watch?v=r9c4t0tsvpA

How to Model Trees with Porous Media — Pedestrian Wind Comfort from SimScale

]]> 245 0 https://cdn.slidesharecdn.com/ss_thumbnails/howtomodeltreeswithporousmediapedestrianwindcomfort-201229100932-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Early-Stage Design Simulation for Architects /slideshow/earlystage-design-simulation-for-architects/240433957 early-stagedesignsimulationforarchitects-201222101458
In this presentation, SimScale teams up with Zaha Hadid architects to demonstrate how cloud-based simulation software enables sustainable building design iteration and optimization. The sustainability team discusses using cloud-based simulation to assess and evaluate the urban microclimate impacts of their most high-profile projects. Learn how a design team can collaborate by leveraging fast and accurate simulation on the cloud.]]>
In this presentation, SimScale teams up with Zaha Hadid architects to demonstrate how cloud-based simulation software enables sustainable building design iteration and optimization. The sustainability team discusses using cloud-based simulation to assess and evaluate the urban microclimate impacts of their most high-profile projects. Learn how a design team can collaborate by leveraging fast and accurate simulation on the cloud.]]> Tue, 22 Dec 2020 10:14:58 GMT /slideshow/earlystage-design-simulation-for-architects/240433957 SimScale@slideshare.net(SimScale) Early-Stage Design Simulation for Architects SimScale In this presentation, SimScale teams up with Zaha Hadid architects to demonstrate how cloud-based simulation software enables sustainable building design iteration and optimization. The sustainability team discusses using cloud-based simulation to assess and evaluate the urban microclimate impacts of their most high-profile projects. Learn how a design team can collaborate by leveraging fast and accurate simulation on the cloud. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/early-stagedesignsimulationforarchitects-201222101458-thumbnail.jpg?width=120&height=120&fit=bounds" /> In this presentation, SimScale teams up with Zaha Hadid architects to demonstrate how cloud-based simulation software enables sustainable building design iteration and optimization. The sustainability team discusses using cloud-based simulation to assess and evaluate the urban microclimate impacts of their most high-profile projects. Learn how a design team can collaborate by leveraging fast and accurate simulation on the cloud.

Early-Stage Design Simulation for Architects from SimScale

]]> 223 0 https://cdn.slidesharecdn.com/ss_thumbnails/early-stagedesignsimulationforarchitects-201222101458-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 An Introduction to Electronics Cooling /slideshow/an-introduction-to-electronics-cooling/240433693 beginnersguidetocfdforelectronics-201222100047
This presentation dives into the basics of electronics cooling and demonstrates how engineering simulation software, like SimScale, can help evaluate electronics cooling performance. Additionally, it covers topics like accuracy, accessibility & pre-processing. Learn how computational fluid dynamics and thermal analysis can address issues of thermal management and help engineers optimize designs quickly. What Is Heat Transfer?: https://bit.ly/3tARTwa What is CFD | Computational Fluid Dynamics?: https://bit.ly/3lwhrrj What Are the Navier-Stokes Equations?: https://bit.ly/3qYSKVz How To Calculate Heat Dissipation In Watts?: https://bit.ly/3s4cLeG]]>
This presentation dives into the basics of electronics cooling and demonstrates how engineering simulation software, like SimScale, can help evaluate electronics cooling performance. Additionally, it covers topics like accuracy, accessibility & pre-processing. Learn how computational fluid dynamics and thermal analysis can address issues of thermal management and help engineers optimize designs quickly. What Is Heat Transfer?: https://bit.ly/3tARTwa What is CFD | Computational Fluid Dynamics?: https://bit.ly/3lwhrrj What Are the Navier-Stokes Equations?: https://bit.ly/3qYSKVz How To Calculate Heat Dissipation In Watts?: https://bit.ly/3s4cLeG]]> Tue, 22 Dec 2020 10:00:47 GMT /slideshow/an-introduction-to-electronics-cooling/240433693 SimScale@slideshare.net(SimScale) An Introduction to Electronics Cooling SimScale This presentation dives into the basics of electronics cooling and demonstrates how engineering simulation software, like SimScale, can help evaluate electronics cooling performance. Additionally, it covers topics like accuracy, accessibility & pre-processing. Learn how computational fluid dynamics and thermal analysis can address issues of thermal management and help engineers optimize designs quickly. What Is Heat Transfer?: https://bit.ly/3tARTwa What is CFD | Computational Fluid Dynamics?: https://bit.ly/3lwhrrj What Are the Navier-Stokes Equations?: https://bit.ly/3qYSKVz How To Calculate Heat Dissipation In Watts?: https://bit.ly/3s4cLeG <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/beginnersguidetocfdforelectronics-201222100047-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation dives into the basics of electronics cooling and demonstrates how engineering simulation software, like SimScale, can help evaluate electronics cooling performance. Additionally, it covers topics like accuracy, accessibility & pre-processing. Learn how computational fluid dynamics and thermal analysis can address issues of thermal management and help engineers optimize designs quickly. What Is Heat Transfer?: https://bit.ly/3tARTwa What is CFD | Computational Fluid Dynamics?: https://bit.ly/3lwhrrj What Are the Navier-Stokes Equations?: https://bit.ly/3qYSKVz How To Calculate Heat Dissipation In Watts?: https://bit.ly/3s4cLeG

An Introduction to Electronics Cooling from SimScale

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0 Accélérer le développement produit via la simulation dans le Cloud avec SimScale https://fr.slideshare.net/slideshow/acclrer-le-dveloppement-produit-via-la-simulation-dans-le-cloud-avec-simscale/240229872 accelererledeveloppementproduitvialasimulationdanslecloudavecsimscale-201217133749
SimScale est une plateforme de simulation numérique basée sur le cloud. Nos clients réalisent des essais structurels, fluides ou thermiques directement depuis un navigateur internet. Nos applications les plus courantes sont le développement de produits (petites ou grandes séries), ainsi que les installations industrielles, ou autres applications uniques (machines spéciales). SimScale se caractérise par sa facilité d’utilisation, un déploiement simple et peu coûteux, ainsi que le meilleur support technique du marché de la simulation.]]>
SimScale est une plateforme de simulation numérique basée sur le cloud. Nos clients réalisent des essais structurels, fluides ou thermiques directement depuis un navigateur internet. Nos applications les plus courantes sont le développement de produits (petites ou grandes séries), ainsi que les installations industrielles, ou autres applications uniques (machines spéciales). SimScale se caractérise par sa facilité d’utilisation, un déploiement simple et peu coûteux, ainsi que le meilleur support technique du marché de la simulation.]]> Thu, 17 Dec 2020 13:37:49 GMT https://fr.slideshare.net/slideshow/acclrer-le-dveloppement-produit-via-la-simulation-dans-le-cloud-avec-simscale/240229872 SimScale@slideshare.net(SimScale) Accélérer le développement produit via la simulation dans le Cloud avec SimScale SimScale SimScale est une plateforme de simulation numérique basée sur le cloud. Nos clients réalisent des essais structurels, fluides ou thermiques directement depuis un navigateur internet. Nos applications les plus courantes sont le développement de produits (petites ou grandes séries), ainsi que les installations industrielles, ou autres applications uniques (machines spéciales). SimScale se caractérise par sa facilité d’utilisation, un déploiement simple et peu coûteux, ainsi que le meilleur support technique du marché de la simulation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/accelererledeveloppementproduitvialasimulationdanslecloudavecsimscale-201217133749-thumbnail.jpg?width=120&height=120&fit=bounds" /> SimScale est une plateforme de simulation numérique basée sur le cloud. Nos clients réalisent des essais structurels, fluides ou thermiques directement depuis un navigateur internet. Nos applications les plus courantes sont le développement de produits (petites ou grandes séries), ainsi que les installations industrielles, ou autres applications uniques (machines spéciales). SimScale se caractérise par sa facilité d’utilisation, un déploiement simple et peu coûteux, ainsi que le meilleur support technique du marché de la simulation.

from SimScale

]]> 152 0 https://cdn.slidesharecdn.com/ss_thumbnails/accelererledeveloppementproduitvialasimulationdanslecloudavecsimscale-201217133749-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Using SimScale for Demonstrating Compliance With LEED, BREEAM & the WELL Building Standard /slideshow/using-simscale-for-demonstrating-compliance-with-leed-breeam-the-well-building-standard/239352936 usingsimscalefordemonstratingcompliancewithleedbreeamthewellbuildingstandard-201120111933
SimScale is a cloud-based simulation tool that allows engineers, designers, and architects to achieve certain credits within the well-established international building codes such as LEED, BREEAM, and WELL. Explore how CFD tools and simulation software can enhance modelling and building design. SimScale can be used to evaluate indoor thermal comfort and air quality, and various external comfort conditions. ]]>
SimScale is a cloud-based simulation tool that allows engineers, designers, and architects to achieve certain credits within the well-established international building codes such as LEED, BREEAM, and WELL. Explore how CFD tools and simulation software can enhance modelling and building design. SimScale can be used to evaluate indoor thermal comfort and air quality, and various external comfort conditions. ]]> Fri, 20 Nov 2020 11:19:33 GMT /slideshow/using-simscale-for-demonstrating-compliance-with-leed-breeam-the-well-building-standard/239352936 SimScale@slideshare.net(SimScale) Using SimScale for Demonstrating Compliance With LEED, BREEAM & the WELL Building Standard SimScale SimScale is a cloud-based simulation tool that allows engineers, designers, and architects to achieve certain credits within the well-established international building codes such as LEED, BREEAM, and WELL. Explore how CFD tools and simulation software can enhance modelling and building design. SimScale can be used to evaluate indoor thermal comfort and air quality, and various external comfort conditions. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/usingsimscalefordemonstratingcompliancewithleedbreeamthewellbuildingstandard-201120111933-thumbnail.jpg?width=120&height=120&fit=bounds" /> SimScale is a cloud-based simulation tool that allows engineers, designers, and architects to achieve certain credits within the well-established international building codes such as LEED, BREEAM, and WELL. Explore how CFD tools and simulation software can enhance modelling and building design. SimScale can be used to evaluate indoor thermal comfort and air quality, and various external comfort conditions.

Using SimScale for Demonstrating Compliance With LEED, BREEAM & the WELL Building Standard from SimScale

]]> 159 0 https://cdn.slidesharecdn.com/ss_thumbnails/usingsimscalefordemonstratingcompliancewithleedbreeamthewellbuildingstandard-201120111933-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 SimScale: Unparalleled CFD Speeds with Parallel Computing /slideshow/simscale-unparalleled-cfd-speeds-with-parallel-computing/239331712 simscaleunparalleledcfdspeedswithparallelcomputing-201119085735
SimScale reduces the lead time of industrial aerodynamic simulations from weeks to hours, using the Lattice Boltzmann Method, provided by Numeric Systems, and high-performance cloud computing, provided by Amazon web services. Proof of concept and level of accuracy is demonstrated with the "DrivAer" geometry —a standard automotive validation case for both CFD and wind tunnel experiments. The results show that SimScale provides a solution to significantly reduce turnaround times for 10x less cost with fantastic accuracy.]]>
SimScale reduces the lead time of industrial aerodynamic simulations from weeks to hours, using the Lattice Boltzmann Method, provided by Numeric Systems, and high-performance cloud computing, provided by Amazon web services. Proof of concept and level of accuracy is demonstrated with the "DrivAer" geometry —a standard automotive validation case for both CFD and wind tunnel experiments. The results show that SimScale provides a solution to significantly reduce turnaround times for 10x less cost with fantastic accuracy.]]> Thu, 19 Nov 2020 08:57:34 GMT /slideshow/simscale-unparalleled-cfd-speeds-with-parallel-computing/239331712 SimScale@slideshare.net(SimScale) SimScale: Unparalleled CFD Speeds with Parallel Computing SimScale SimScale reduces the lead time of industrial aerodynamic simulations from weeks to hours, using the Lattice Boltzmann Method, provided by Numeric Systems, and high-performance cloud computing, provided by Amazon web services. Proof of concept and level of accuracy is demonstrated with the "DrivAer" geometry —a standard automotive validation case for both CFD and wind tunnel experiments. The results show that SimScale provides a solution to significantly reduce turnaround times for 10x less cost with fantastic accuracy. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/simscaleunparalleledcfdspeedswithparallelcomputing-201119085735-thumbnail.jpg?width=120&height=120&fit=bounds" /> SimScale reduces the lead time of industrial aerodynamic simulations from weeks to hours, using the Lattice Boltzmann Method, provided by Numeric Systems, and high-performance cloud computing, provided by Amazon web services. Proof of concept and level of accuracy is demonstrated with the "DrivAer" geometry —a standard automotive validation case for both CFD and wind tunnel experiments. The results show that SimScale provides a solution to significantly reduce turnaround times for 10x less cost with fantastic accuracy.

SimScale: Unparalleled CFD Speeds with Parallel Computing from SimScale

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0 Simulating the Performance of the Unique MicroLouvre™ for Low Energy Building Design /slideshow/simulating-the-performance-of-the-unique-microlouvre-for-low-energy-building-design/239314214 simulatingtheperformanceoftheuniquemicrolouvreforlowenergybuildingdesign-201118104554
SimScale teams up with Smartlouvre Technology Ltd. to demonstrate how simulation technology can be used to evaluate the performance of MicroLouvre, a woven mesh of paper-thin bronze louvres. This product is used externally on windows and building facades to block and absorb heat, and control glare. As the only one of its kind on the market, MicroLouvre provides an option for low energy building designers that improves the performance of glazing while still allowing for daylight and natural ventilation. SimScale evaluated the performance of Microlouvre testing its structural properties against airflow, solar, and thermal data. ]]>
SimScale teams up with Smartlouvre Technology Ltd. to demonstrate how simulation technology can be used to evaluate the performance of MicroLouvre, a woven mesh of paper-thin bronze louvres. This product is used externally on windows and building facades to block and absorb heat, and control glare. As the only one of its kind on the market, MicroLouvre provides an option for low energy building designers that improves the performance of glazing while still allowing for daylight and natural ventilation. SimScale evaluated the performance of Microlouvre testing its structural properties against airflow, solar, and thermal data. ]]> Wed, 18 Nov 2020 10:45:54 GMT /slideshow/simulating-the-performance-of-the-unique-microlouvre-for-low-energy-building-design/239314214 SimScale@slideshare.net(SimScale) Simulating the Performance of the Unique MicroLouvre™ for Low Energy Building Design SimScale SimScale teams up with Smartlouvre Technology Ltd. to demonstrate how simulation technology can be used to evaluate the performance of MicroLouvre, a woven mesh of paper-thin bronze louvres. This product is used externally on windows and building facades to block and absorb heat, and control glare. As the only one of its kind on the market, MicroLouvre provides an option for low energy building designers that improves the performance of glazing while still allowing for daylight and natural ventilation. SimScale evaluated the performance of Microlouvre testing its structural properties against airflow, solar, and thermal data. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/simulatingtheperformanceoftheuniquemicrolouvreforlowenergybuildingdesign-201118104554-thumbnail.jpg?width=120&height=120&fit=bounds" /> SimScale teams up with Smartlouvre Technology Ltd. to demonstrate how simulation technology can be used to evaluate the performance of MicroLouvre, a woven mesh of paper-thin bronze louvres. This product is used externally on windows and building facades to block and absorb heat, and control glare. As the only one of its kind on the market, MicroLouvre provides an option for low energy building designers that improves the performance of glazing while still allowing for daylight and natural ventilation. SimScale evaluated the performance of Microlouvre testing its structural properties against airflow, solar, and thermal data.

Simulating the Performance of the Unique MicroLouvre™ for Low Energy Building Design from SimScale

]]> 160 0 https://cdn.slidesharecdn.com/ss_thumbnails/simulatingtheperformanceoftheuniquemicrolouvreforlowenergybuildingdesign-201118104554-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Basics of building aerodynamics & their effects on pedestrian comfort /slideshow/basics-of-building-aerodynamics-their-effects-on-pedestrian-comfort/226893157 basicsofbuildingaerodynamicsandtheireffectsonpedestriancomfort-200204172557
Find the webinar here:https://www.youtube.com/watch?v=FdK-3-1ubYo This slide deck will explore the different wind effects produced by building aerodynamics and the existing urban layout. We will explain what ‘wind comfort’ is and how it is assessed with industry standards. Moreover, thanks to the SimScale pedestrian wind comfort analysis tool, we will then demonstrate how these wind effects can impact the comfort of pedestrians, and discuss what improvements could be made during the design process to mitigate pedestrian-level discomfort. ]]>
Find the webinar here:https://www.youtube.com/watch?v=FdK-3-1ubYo This slide deck will explore the different wind effects produced by building aerodynamics and the existing urban layout. We will explain what ‘wind comfort’ is and how it is assessed with industry standards. Moreover, thanks to the SimScale pedestrian wind comfort analysis tool, we will then demonstrate how these wind effects can impact the comfort of pedestrians, and discuss what improvements could be made during the design process to mitigate pedestrian-level discomfort. ]]> Tue, 04 Feb 2020 17:25:57 GMT /slideshow/basics-of-building-aerodynamics-their-effects-on-pedestrian-comfort/226893157 SimScale@slideshare.net(SimScale) Basics of building aerodynamics & their effects on pedestrian comfort SimScale Find the webinar here:https://www.youtube.com/watch?v=FdK-3-1ubYo This slide deck will explore the different wind effects produced by building aerodynamics and the existing urban layout. We will explain what ‘wind comfort’ is and how it is assessed with industry standards. Moreover, thanks to the SimScale pedestrian wind comfort analysis tool, we will then demonstrate how these wind effects can impact the comfort of pedestrians, and discuss what improvements could be made during the design process to mitigate pedestrian-level discomfort. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/basicsofbuildingaerodynamicsandtheireffectsonpedestriancomfort-200204172557-thumbnail.jpg?width=120&height=120&fit=bounds" /> Find the webinar here:https://www.youtube.com/watch?v=FdK-3-1ubYo This slide deck will explore the different wind effects produced by building aerodynamics and the existing urban layout. We will explain what ‘wind comfort’ is and how it is assessed with industry standards. Moreover, thanks to the SimScale pedestrian wind comfort analysis tool, we will then demonstrate how these wind effects can impact the comfort of pedestrians, and discuss what improvements could be made during the design process to mitigate pedestrian-level discomfort.

Basics of building aerodynamics & their effects on pedestrian comfort from SimScale

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0 https://cdn.slidesharecdn.com/profile-photo-SimScale-48x48.jpg?cb=1668078707 SimScale enables engineering teams to access accurate and fast simulation, on their terms, without compromise. We make engineering simulation technically and economically accessible from everywhere, at any time, and at any scale, in the cloud. We deliver instant access to fluid, thermal, and structural simulation to hundreds of thousands of users worldwide. With SimScale, high-fidelity multiphysics simulation has moved from a complex and cost-prohibitive desktop application to an inclusive, agile, cloud-native engineering simulation platform. SimScale is a SaaS company that follows the subscription pricing model, visit http://simscale.com for more information. www.simscale.com https://cdn.slidesharecdn.com/ss_thumbnails/simscaledemoanddiscussiononfeaforearlystagedesign-210531103959-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/fea-for-early-stage-design/248784351 FEA for Early Stage De... https://cdn.slidesharecdn.com/ss_thumbnails/hvrzero-netzero-simscalepresention-250521-210526163137-thumbnail.jpg?width=320&height=320&fit=bounds SimScale/hybrid-ventilation-using-cfd-simulation-in-the-cloud Hybrid Ventilation usi... https://cdn.slidesharecdn.com/ss_thumbnails/illuminatelightingseries-workshop2-210423135717-thumbnail.jpg?width=320&height=320&fit=bounds SimScale/simulation-for-passively-cooled-led-design Simulation for Passive...