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Fluid Dynamics CFD / Turbomachinery Air System and Thermal Engineer - Job Opportunity at Siemens Energy

Lincoln, United Kingdom
Full-time
Senior
Posted: March 31, 2025
Hybrid
GBP 65,000 - 85,000 per year based on location, seniority, and current market rates for specialized turbomachinery roles

Benefits

Enhanced pension scheme with class-leading adjustability
26-29 days holiday with tenure progression
Comprehensive flexible benefits portal including private medical coverage
Cycle-to-work scheme promoting sustainability
Professional development and continuous learning programs
Cutting-edge project exposure in energy sector
Hybrid working model with flexible arrangements

Key Responsibilities

Lead turbomachinery air system design and analysis with focus on temperature, pressure, and flow optimization
Interface with cross-functional teams for component life assessment and duty-based calculations
Conduct advanced root cause analysis and design experimentation
Develop and manage component and engine test specifications
Calibrate and validate analytical models using real-world data
Provide technical production support and data analysis
Drive process improvements through toolchain integration
Maintain technical documentation and methodology standards
Evaluate and validate software implementations

Requirements

Education

Bachelor's or Master's degree in relevant engineering field

Experience

Minimum 5 years experience in Automotive, Aerospace, or Turbomachinery

Required Skills

Fluid Dynamics theory expertise 1D validation methods and hand calculations FEM and CFD analysis proficiency Experience with Patran, P-Thermal, RR SCO3/SPAN, Ansys, Abaqus CFD software expertise (StarCCM, CFX, Fluent) Understanding of investment casting and materials science Knowledge of secondary air systems Stress and creep analysis capabilities Strong communication and interpersonal skills
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Sauge AI Market Intelligence

Industry Trends

Energy sector is experiencing unprecedented transformation driven by decarbonization initiatives and sustainable technology development Increasing demand for thermal efficiency optimization in turbomachinery due to environmental regulations and cost pressures Growing integration of digital twins and advanced simulation technologies in design processes Rising importance of hybrid skillsets combining traditional fluid dynamics with modern computational methods

Role Significance

Typically part of a 10-15 person specialized engineering team within larger turbine engineering department
Senior technical position with significant influence on critical system design decisions and performance optimization

Key Projects

Thermal system optimization for next-generation gas turbines Efficiency improvement programs for existing turbomachinery Development of novel cooling systems for sustainable energy applications Integration of advanced materials and cooling technologies

Success Factors

Deep technical expertise combined with practical application skills Ability to bridge theoretical modeling with real-world engineering constraints Strong analytical mindset with systematic problem-solving approach Effective cross-functional collaboration capabilities

Market Demand

High demand with growing trajectory due to energy transition focus and limited talent pool with combined CFD and turbomachinery expertise

Important Skills

Critical Skills

Advanced CFD modeling capabilities essential for next-generation turbine development Comprehensive understanding of thermal systems crucial for efficiency optimization Material science knowledge critical for component life prediction

Beneficial Skills

Project management capabilities for complex technical programs Knowledge of emerging sustainable energy technologies Digital twin and simulation software expertise

Unique Aspects

Rare combination of traditional turbomachinery expertise with modern computational methods
Direct involvement in energy transition projects
Access to advanced simulation and testing facilities
Global collaboration opportunities across Siemens Energy network

Career Growth

2-4 years in role before progression, depending on project success and leadership capability development

Potential Next Roles

Lead Technical Specialist Principal Engineer Engineering Team Leader Technical Project Manager Research and Development Manager

Company Overview

Siemens Energy

Global leader in energy technology with significant investment in sustainable solutions and decarbonization

Top-tier position in power generation technology with approximately one-sixth of global electricity generation capacity
Major technical center in Lincoln with strategic importance for turbine engineering
Innovation-focused environment with emphasis on sustainability and technological advancement, promoting diversity and inclusion
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