ウェビナー
今までに実施されたウェビナーについてはこちらからご確認いただけます webinar recordings
Webinar: Speeding up my natural convection analyses (Asia/Oceania)
Where: Online
Date: 8 March, 2012
Description:
Best practices for simulating thin air gaps in electronic systems.
While many electronic devices have power densities that require forced air flow, a significant number of systems can still utilize solely natural (passive) convective cooling.
The reliability and quietness of passively cooled systems is especially attractive for consumer devices, so investigating these cooling options is a valuable portion of the design process. Effective investigation of natural convection cooling requires efficient simulation.
Webinar: Speeding up my natural convection analyses (Japan)
Where: Online
Date: 8 March, 2012
Description:
電子機器におけるエアーギャップシミュレーションのベストプラクティス
多くの電子機器が強制空冷を必要とする電力消費量で動いている一方で、自然対流による冷却を活用できるシステムも数多くあります。
信頼性と静音性のある冷却システムは、一般消費者向けの機器にとって特に魅力的となります。そのため、こうした冷却方法の検討が設計工程では重要となります。効率的に自然対流冷却の検討を行うには、効率的なシミュレーションが欠かせません。
*このウェビナーは英語で行われます。
Webinar: Speeding up my natural convection analyses (US/Europe)
Where: Online
Date: 8 March, 2012
Description:
Best practices for simulating thin air gaps in electronic systems.
While many electronic devices have power densities that require forced air flow, a significant number of systems can still utilize solely natural (passive) convective cooling.
The reliability and quietness of passively cooled systems is especially attractive for consumer devices, so investigating these cooling options is a valuable portion of the design process. Effective investigation of natural convection cooling requires efficient simulation.
Webinar: Speeding up my natural convection analyses (Asia/Oceania)
Where: Online
Date: 26 April, 2012
Description:
Best practices for simulating natural convective air flow in electronic systems.
While many electronic devices have power densities that require forced air flow, a significant number of systems can still utilize solely natural (passive) convective cooling.
The reliability and quietness of passively cooled systems is especially attractive for consumer devices, so investigating these cooling options is a valuable portion of the design process. Effective investigation of natural convection cooling requires efficient simulation.
Webinar: Speeding up my natural convection analyses (US/Europe)
Where: Online
Date: 26 April, 2012
Description:
Best practices for simulating natural convective air flow in electronic systems.
While many electronic devices have power densities that require forced air flow, a significant number of systems can still utilize solely natural (passive) convective cooling.
The reliability and quietness of passively cooled systems is especially attractive for consumer devices, so investigating these cooling options is a valuable portion of the design process. Effective investigation of natural convection cooling requires efficient simulation.
Webinar: Speeding up my natural convection analyses (Japan)
Where: Online
Date: 26 April, 2012
Description:
自然対流解析: 電子機器におけるエアーギャップシミュレーションのベストプラクティス
多くの電子機器が強制空冷を必要とする電力消費量で動いている一方で、自然対流による冷却を活用できるシステムも数多くあります。
信頼性と静音性のある冷却システムは、一般消費者向けの機器にとって特に魅力的となります。そのため、こうした冷却方法の検討が設計工程では重要となります。効率的に自然対流冷却の検討を行うには、効率的なシミュレーションが欠かせません。
*このウェビナーは英語で行われます。
We now find ourselves in the unusual position of being ahead of the curve for our clients rather than behind the curve.
Thanks to STAR‑CCM+, waiting for more input from our clients is more common than our clients waiting for us to run complex CFD
models. What a delightful position to be in!
Changing to STAR‑CCM+ was the best decision we ever made.- Scott D Reynolds, Manager of the CAES Group, M/E Engineering, PC
