Mechanical Engineer jobs for Wind Turbine Design projects
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Schedule Wind Turbine Design projects in advance, no more acquisition
The wind turbine design project is an intricate engineering endeavor that centers on the development of groundbreaking wind turbines. This multifaceted project comprises various stages, commencing with initial research and conceptualization, followed by meticulous design and analysis, prototype testing, and culminating in final production. The ultimate objective of this venture is to fabricate cutting-edge wind turbines that boast exceptional performance, efficiency, and cost-effectiveness, thereby propelling the global adoption of renewable energy sources.
Roles and techniques
Mechanical Engineer Wind Turbine Design
We are seeking a skilled and motivated mechanical engineer with expertise in designing wind turbines to join our team. As a member of our team, you will be responsible for constructing mechanical components using 3D CAD, preparing 2D drawings, and drafting specifications and parts lists for the assembly department. You will collaborate closely with the Structural Analyses department to optimize construction and ensure that all parts meet safety standards and regulations. Additionally, you will be responsible for analytical calculations and reporting of construction parts, providing technical support for production in The Netherlands and abroad, and technical support during installation, service, and maintenance of the turbines. As a senior member of the team, you will also lead project coordination efforts for design in collaboration with other departments and mentor and train junior engineers. If you are passionate about designing innovative solutions for renewable energy and are eager to take on these challenging and rewarding responsibilities, we encourage you to apply.
Location & travelling
- Region Barneveld
- Free Parking available
- 10 minutes from Barneveld Noord station
- 18 minutes drive from Amersfoort
- Travelling during the Job (average):
- Travel for technical support during production (Netherlands/abroad)
- Travelling to location of installation for technical support (Netherlands/abroad)
Meet your new team
Meet your team
(see full Interactice Chart only on desktop)
Frequently used skills by team
Your skills
SolidWorks
Finite Element Modelling (FEM)
Abreast of Wind Turbine Industry
Team Player
Leadership
Analytical
Constructive Insight
Helicopter View
Skills you learn
SolidWorks
Finite Element Modelling (FEM)
Abreast of Wind Turbine Industry
Team Player
Leadership
Analytical
Constructive Insight
Helicopter View
Basic | Novice | Intermediate | Advanced | Expert |
Basic | Novice | Intermediate | Advanced | Expert |
Skills that you master:
Skills you will improve:
All about your new job
You are in charge! Let us elaborate on your possible next career opportunity!
Your ambitions matter
We believe that every employee has unique talents and capabilities that should be recognized, developed, and utilized to their fullest potential. We are committed to helping our employees achieve their career ambitions by providing them with ample opportunities for growth and development. Whether it's through on-the-job training, mentoring programs, or continuing education, we will support you every step of the way.
Our culture is centered around collaboration, innovation, and continuous improvement, providing you with a stimulating and rewarding work environment where you can thrive. By joining Lagerwey, you will have the chance to work alongside passionate professionals who are dedicated to creating a sustainable future through the power of wind energy.
The impact of your job
As a mechanical engineer working on wind turbine design projects, your expertise plays a significant role in the success of the project. Your skills in mechanical systems, design, and optimization ensure that the wind turbines are constructed safely, efficiently, and effectively. You contribute to the achievement of the wind park's energy production goals while minimizing costs. Your knowledge and experience help to ensure that the wind turbines are reliable and operate efficiently over their lifetime, making a positive impact on the environment and helping to meet global energy demands. Your work is crucial in advancing the use of renewable energy and creating a sustainable future for generations to come.
Your reward & promotion
As a mechanical engineer, you can expect a competitive salary (€45,000 - €60,000 per year) with matching secondary conditions, along with the opportunity to progress to roles with higher responsibilities and higher salaries based on your demonstrated expertise and experience. With our focus on innovation and sustainability, your career path could lead to opportunities for international assignments and specialized training. You'll be part of a growing company that values teamwork and collaboration, and that is expanding into the European market, providing long-term perspectives for your career growth and development
You have success when...
... the wind turbines you designed and installed are functioning optimally, generating maximum energy output with minimal downtime.
... you have efficiently resolved any mechanical issues that arose during the project, ensuring that the wind turbines are running smoothly and safely.
... you have maintained good communication and collaboration with other members of the project team, contributing to the project's success and ensuring a positive work environment.
... but most importantly, when you feel a sense of satisfaction and accomplishment at the end of the day.Project information
Creating an efficient and dependable wind turbine necessitates a wide array of skills and expertise. This endeavor is a collaborative effort involving numerous professionals and companies, each playing a unique role in the process. By employing cutting-edge techniques and specialized equipment, the project aims to develop a wind turbine design that is not only secure and effective but also environmentally sustainable. In this section, we will explore the various stages of the project, the diverse roles undertaken by the professionals involved, and the advanced techniques and equipment utilized to bring the project to fruition.
The cost of a wind turbine design project can vary greatly depending on the scale and extent of the project. A small-scale project focused on designing wind turbines may have a price tag as low as a few thousand euros, while a larger-scale endeavor can cost several million euros or even more.
Several factors play a role in determining the cost of the project, such as the number and size of the wind turbines being developed, the complexity of the project, and the level of detail needed in the design. Additionally, the cost of raw materials, specialized equipment, and labor all contribute to the overall expenditure.
It's worth noting that although the initial investment may be substantial, a well-crafted wind turbine has the potential to generate remarkable cost savings throughout its operational lifespan. Besides providing renewable energy, wind turbines can help offset energy expenses and reduce a company's carbon footprint. Consequently, the long-term financial benefits derived from a skillfully designed wind turbine can far surpass the initial investment.
Professionals and companies play a crucial role in the intricate process of designing a wind turbine. Depending on the scale and complexity of the project, a diverse range of experts, from design engineers and project managers to construction workers and maintenance crews, come together to ensure the wind turbine is meticulously crafted and maintained to meet the specific requirements of clients and communities.
To illustrate this further, let's delve into a typical wind turbine project. A team of skilled design engineers collaborates to develop a comprehensive blueprint for the turbine. Their responsibilities encompass the design of the tower, rotor blades, gearbox, and other vital components. Additionally, they liaise with suppliers to secure the necessary materials and parts for construction.
Once the design phase is completed, the project transitions to the construction stage, where a team of proficient workers diligently assembles the wind turbine. This team takes charge of erecting the tower, attaching the rotor blades, and connecting the electrical components. Throughout this phase, project managers meticulously oversee the operations to ensure timely completion within the allocated budget.
After the wind turbine is successfully constructed, a dedicated maintenance team takes the reins to ensure its optimal performance. This diligent crew conducts regular inspections, performs necessary maintenance tasks, and troubleshoots any arising issues to guarantee smooth and efficient operation.
The number of companies involved in a wind turbine project can vary significantly, depending on the project's scale and scope. A small-scale endeavor may involve only a handful of companies, while a more extensive undertaking might engage dozens or even hundreds of companies, including suppliers, contractors, and sub-contractors. Regardless of the number, seamless collaboration among all stakeholders is paramount to ensure the overall success of the project.
AutoCAD software
Finite Element Analysis
Wind tunnel
Strain gauges
Rotor balancing machine
Material testing equipment
Project timeline
Initiative & feasibility
During this phase, we delve into the initial ideas and examine the feasibility of the project. Our objective is to ascertain whether the project is both technically and economically viable, and if it aligns harmoniously with the company's overarching goals.
Design & planning
In this crucial stage, the project undergoes meticulous detailing and a comprehensive execution plan takes shape. The design encompasses precise specifications for the wind turbine, tower, and foundation, and may even involve cutting-edge computer-aided design (CAD) software.
Engineering & tendering
During this stage, meticulous engineering tasks are undertaken and the procurement procedures are set in motion. The engineering work encompasses thorough structural analysis, precise aerodynamic calculations, and comprehensive performance evaluation.
Construction
During this crucial phase, the wind turbine takes shape as the tower and foundation are meticulously constructed. With precision and expertise, the turbine components are skillfully assembled right on site. This remarkable process involves a diverse array of heavy machinery, including cranes, loaders, and excavators, working together harmoniously to bring this renewable energy marvel to life.
Commissioning
After the construction phase is finished, the turbine embarks on a thorough examination to guarantee its flawless performance. This encompasses meticulous assessments of the electrical and control systems, as well as a comprehensive evaluation of the turbine's mechanical components.
Operations & maintenance
The final stage encompasses the continuous operation and maintenance of the wind turbine. This involves routine upkeep and thorough inspections, along with necessary repairs and replacements.
Company roles
The government plays a crucial role in the wind turbine design project by overseeing regulations to ensure compliance with laws and guidelines. Additionally, they offer invaluable guidance on meeting environmental, health, and safety requirements throughout the design and construction phases. Moreover, the government actively supports research and development initiatives, empowering companies to explore innovative technologies and techniques that enhance the performance and efficiency of wind turbines.
The client serves as the driving force behind the wind turbine design project, providing the necessary funding and playing a pivotal role in defining the project requirements to ensure the design perfectly aligns with their needs. Furthermore, the client actively participates in the design process, offering valuable feedback, approving design documents, and meticulously overseeing the construction phase to guarantee timely completion, adherence to budget, and utmost satisfaction.
The consultant plays a crucial role in offering technical expertise and support throughout the entire design and construction journey. By closely collaborating with the client, they guarantee that the project aligns with their specific requirements and provide valuable insights on selecting top-quality materials and equipment. Furthermore, the consultant conducts comprehensive site inspections to diligently oversee the construction process, ensure adherence to regulations, and proactively identify any potential challenges that could impact the project's ultimate success.
The contractor takes charge of the wind turbine design project, guaranteeing its timely completion, adherence to budget, and satisfaction of the client. They oversee the coordination of subcontractors and suppliers involved in the project, ensuring superior quality standards are met. Additionally, they contribute their expertise to enhance the project's efficiency and performance by providing design input and recommending improvements.
The supplier holds the key responsibility of furnishing the wind turbine design project with essential equipment, materials, and components. Their pivotal role lies in guaranteeing a seamless project execution, delivering top-notch products promptly and within the allocated budget. Furthermore, they extend invaluable technical support and guidance in the careful selection and utilization of their offerings, thereby enhancing the overall performance and efficiency of the wind turbine design.