-Contribute to the development of engine workflows and analysis best practices to improve group efficiency and accuracy. -Develops, tests, and integrates complex components and evaluates overall effectiveness, cost (including cost/benefit analysis), reliability (risk analysis), and safety. -Apply data analysis techniques, including Matlab/Simulink or Python-based scripting, and machine learning to support predictive modeling and performance forecasting. -Interpret testing results and collaborate with cross-functional teams through design reviews and technical discussions to guide product development. -Develop engine systems and components for engine performance using design reviews, testing, problem solving, and calculations to support engine and generator design. -Stay informed on relevant technologies, tools, and industry trends to support continuous improvement. -Conduct testing to evaluate the engine and systems relative to performance and emissions. -Document project objectives, methods, and results using standardized reporting formats. -Designs, develops, executes, and evaluates testing, product specifications, and process validation plans for a variety of complex products and/or components. -Collaborate with internal manufacturing partners, contract manufacturers, designers, and product specialists to optimize complex and advanced designs for performance. -Conduct system analysis using development processes to aid in optimizing the transient, emissions, and steady-state performance of the engine/generator.
-3 years of experience applying MATLAB/Simulink and Python in internal combustion engine design -Extensive experience with internal combustion engine performance development and specification -Proven ability to work well with others as part of a diverse global team -1 year of hands-on experience with ATI Vision as applied to engine control systems -Bachelor’s degree in Mechanical Engineering or Electrical Engineering, or related discipline -2 years of hands-on experience with engine and engine component development -3 years of experience using ATI Vision for calibrating internal combustion engines -Data analysis and control/diagnostic feature creation skills -3 years of hands-on experience in engine and engine system development -Comprehensive knowledge of internal combustion engines and effective engine test methods -Written and verbal communication skills with the ability to clearly interpret and present complex simulation results to technical and non-technical audiences. -2 years of experience in an Automotive, Development, or a related engineering discipline -Experience with MATLAB/Simulink, Python, C/C+, Labview, Targetlink, Vision, ETOS or similar to modify embedded control software -Demonstrated written communication and presentation skills -Ability to apply engineering knowledge and experience to improve products, services and processes -Strong analytical and problem-solving skills, with a deep understanding of internal combustion engine design, operation, and testing. -1 year of experience in exhaust aftertreatment simulation with GT-Suite/GT-xCHEM or CHEMKIN. -Good knowledge of internal combustion engine performance development and specification. -Ability to create systems for internal combustion engines, including understanding of the effects of spark control, adjusting AFR for best performance and emissions, PID settings for best transient performance, MAP based control, calibrating w/EGR, and calibrating with a catalyst. -Familiarity with machine learning and predictive analytics techniques applied to engine performance and emissions modeling. -Experience in new IC engine design and development. -Familiarity with systems engineering based problem solving -Ability to perform detail-oriented work with a high degree of accuracy on multiple projects. -Master’s degree in mechanical engineering, Aerospace Engineering, Computer Science, or a related field of study -2 or more years of relevant work experience -2 years of experience in powertrain data collection and analysis - ATI/CAN or similar
-It began by engineering affordable home standby generators and built its first engine tailored for generator use. -Its portfolio spans portable units, residential standby systems, large commercial/industrial generators, light towers, power washers, battery storage, and smart-home energy devices. -Typical projects include outfitting homes for outage resilience, powering construction sites with mobile generators, and deploying microgrid and natural gas generator solutions for commercial clients. -Innovations include the PWRcell home energy storage line, integration of EV charging and remote monitoring via Mobile Link and Concerto software platforms.
Industrial
Energy
Infrastructure
Buildings
Residential
Commercial
Water Resources
Heavy Civil
Marine
Transport
Utilities
Solar
Wind
Nuclear
Government
Energy Storage
Energy Management
Grid Services
Distributed Energy Resources
Backup Power Systems
Smart Energy Solutions
Power Generation Equipment
Prime Power Systems
Load Control
Virtual Power Plants
