针对新项目的创新及协作式同步项目管理
汽车及交通运输行业
Integration of mechanical, software and electronic systems technologies for vehicle systems
了解行业应用能源与公用事业
Supply chain collaboration in design, construction, maintenance and retirement of mission-critical assets
了解行业应用Heavy Equipment
Construction, mining, and agricultural heavy equipment manufacturers striving for superior performance
Explore Industry工业机械与重型装备行业
Integration of manufacturing process planning with design and engineering for today’s machine complexity
了解行业应用Insurance & Financial
Visibility, compliance and accountability for insurance and financial industries
Explore IndustryMedia & Telecommunications
Siemens PLM Software, a leader in media and telecommunications software, delivers digital solutions for cutting-edge technology supporting complex products in a rapidly changing market.
Explore IndustrySmall & Medium Business
Remove barriers and grow while maintaining your bottom line. We’re democratizing the most robust digital twins for your small and medium businesses.
Explore IndustryJet engine performance engineering
Jet engine performance engineering
Enable the next generation of jet engine technology
In this webinar, you will learn how digital twins can help jet engine and gas turbine manufacturers model the most complex physics faster than ever before.
Aircraft engine designers are facing stricter environmental and regulatory constraints and a push for new, greener fuels which require innovative combustion design concepts. To meet ever shorter development timelines, engineers need to leverage simulation – now more than ever – to iterate quickly through novel design concepts and across different teams.
To effectively tackle design complexities and mitigate risks of failures, aircraft engine engineers need tools that enable an integrated approach that brings simulation and physical testing together. This webinar will share how digital twins enable you to predict jet engine emissions during the design phase. You’ll see how this approach to aircraft engine performance engineering results in lower emissions, shorter development time and reduced risks and costs.
Learn how to:
To improve the turnaround time and accuracy of the reacting large eddy simulations (LES) needed to support design iteration, aero-engine manufacturers have to look at enhancing and extending their simulation methodologies, incorporating accurate and flexible combustion models, fast and scalable solvers and automated multi-timescale workflows.
This webinar explores jet engine combustion with a Honeywell use case. You will see, based on combustor geometries:
Erik Munktell, Simcenter Solution Manager for Aircraft Engine, Siemens Digital Industries Software
Megan Karalus, Solution Consultant, Siemens Digital Industries Software
您好,鲍勃(将会在访问实际网站时替换为真实名字)
我们想要了解更多有关您的信息。
页面提交出错。请重新尝试。
首次订阅 Siemens Digital Industries Software 电子邮件?稍后您将收到一封电子邮件,请务必点击确认,以完成订阅。
您好,鲍勃(将会在访问实际网站时替换为真实名字)
本场网络研讨会将对您开放 90 天。请单击下方开始观看。
Enable the next generation of jet engine technology
In this webinar, you will learn how digital twins can help jet engine and gas turbine manufacturers model the most complex physics faster than ever before.
Aircraft engine designers are facing stricter environmental and regulatory constraints and a push for new, greener fuels which require innovative combustion design concepts. To meet ever shorter development timelines, engineers need to leverage simulation – now more than ever – to iterate quickly through novel design concepts and across different teams.
To effectively tackle design complexities and mitigate risks of failures, aircraft engine engineers need tools that enable an integrated approach that brings simulation and physical testing together. This webinar will share how digital twins enable you to predict jet engine emissions during the design phase. You’ll see how this approach to aircraft engine performance engineering results in lower emissions, shorter development time and reduced risks and costs.
Learn how to:
To improve the turnaround time and accuracy of the reacting large eddy simulations (LES) needed to support design iteration, aero-engine manufacturers have to look at enhancing and extending their simulation methodologies, incorporating accurate and flexible combustion models, fast and scalable solvers and automated multi-timescale workflows.
This webinar explores jet engine combustion with a Honeywell use case. You will see, based on combustor geometries:
Erik Munktell, Simcenter Solution Manager for Aircraft Engine, Siemens Digital Industries Software
Megan Karalus, Solution Consultant, Siemens Digital Industries Software