实例探究 > Adapting jet engine technology for alternative energy uses with SolidWorks

Adapting jet engine technology for alternative energy uses with SolidWorks

公司规模
SME
地区
  • America
国家
  • Canada
  • United States
产品
  • SolidWorks Premium
  • SolidWorks Simulation Professional
  • SolidWorks Flow Simulation
  • SolidWorks Composer
  • SolidWorks Workgroup PDM
技术栈
  • 3D CAD
  • CFD Analysis
  • Product Data Management
  • Simulation Software
实施规模
  • Enterprise-wide Deployment
影响指标
  • Innovation Output
  • Productivity Improvements
  • Customer Satisfaction
技术
  • 分析与建模 - 预测分析
  • 应用基础设施与中间件 - 数据可视化
  • 功能应用 - 产品生命周期管理系统 (PLM)
适用行业
  • 可再生能源
  • 运输
适用功能
  • 产品研发
  • 质量保证
用例
  • 数字孪生
  • 能源管理系统
  • 车队管理
  • 预测性维护
  • 远程资产管理
服务
  • 软件设计与工程服务
  • 系统集成
  • 培训
关于客户
Brayton Energy is a leading developer of innovative energy applications that combine abundant renewable fuels with gas turbine technology, which is traditionally used to power jet aircraft engines. The company has adapted this technology to create new hybrid engines, portable generators, and complete power plants. Brayton Energy's work spans various applications, including converting biomass and solar energy into electricity and developing natural-gas-powered hybrid fuel cell/turbine engines for large vehicles. Established in 2004, the company focuses on developing environmentally responsible energy technologies and operates in both the US and Canada.
挑战
Brayton Energy needed a design platform that would allow engineers to design, analyze, and show innovative gas turbine applications within compressed development cycles. The company required a CAD system that could take them from concept to production in a streamlined, highly visual way. They needed to test and simulate the performance of their systems in software before investing in actual production. Additionally, the CAD system had to be user-friendly to avoid wasting time on retraining with different software applications from various vendors.
解决方案
Brayton Energy selected the SolidWorks Premium integrated 3D design system for its ease of use, robust tools for designing large assemblies, automated sheet-metal design capabilities, and integrated simulation and documentation applications. They implemented 12 seats of SolidWorks software across their US and Canadian operations, including SolidWorks Simulation Professional, SolidWorks Flow Simulation, and SolidWorks Composer. This integrated platform allowed Brayton Energy to quickly develop and visualize innovative gas turbine systems, conduct structural, thermal, and fluid flow analysis, and document the entire process efficiently. The use of SolidWorks enabled the company to model design concepts and perform analyses without switching between different software, streamlining their development process.
运营影响
  • Shortened design cycles, allowing for faster development of innovative gas turbine technologies.
  • Improved handling of large assemblies, managing up to 50,000 parts efficiently.
  • Developed several gas turbine advances, including a unique hybrid solid oxide fuel cell (SOFC) system and a high-efficiency intercooled recuperated (ICR) gas turbine system for vehicular applications.
  • Reduced documentation development time by 25 to 50 percent, thanks to the integrated SolidWorks Composer software.
  • Enabled quick updates to documentation with revised models, supporting a fluid development process with many iterations and design changes.
数量效益
  • Cut documentation development time by 25 to 50 percent.
  • Managed large assemblies of up to 50,000 parts efficiently.

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