Career as a Wind Energy Engineer

Wind energy engineers prepare, develop, analyze, and supervise the development of mechanical layout turbines, propellers, electronic equipment, and power generation systems. They research experimental concepts and analyze their aerodynamics. Wind energy engineers write papers and record the conclusions of their investigations. Wind energy engineers work on implementation sites They build farm models and blueprints.

  • Must possess at least 50% aggregate from a recognized institution in 12th, from any board PUC/CBSE/ICSE/ISC, etc. However, the cut-off margin varies with the selection process of different colleges.
  • Should procure a valid score in entrance exams such as JEE-MAINS/CET/VITEEE/JEE-Advanced, etc. Different colleges offer their own entrance exams if you don’t have a satisfactory score in JEE or other competitive exams – colleges like NMIMS, Symbiosis International University, XUB, Andhra University, LPU, etc. Every state offers their own entrance exam as well.
  • One must earn a degree in B.Sc/B.Tech or a Diploma to become a Wind Energy Engineer. This is a basic qualification you must require to enroll in this line of work.
  • An M.Tech in Wind Energy Engineering can also prove to be helpful while looking for a higher degree and better learning.

  • Investigate the deployment of wind turbines or wind power subsystems to establish dependability, productivity, and adherence with precise requirements.
  • Screen wind energy building to guarantee conformity with legal regulations or ecological conditions.
  • Administers improvements to processes or facilities to increase wind energy efficiency, lower operating costs, or meet regulatory requirements.
  • Deliver engineering and technological assistance to experimental energy turbines builders.
  • Supervise the jobs of wind turbine specialists or suppliers.

  • Legislation and Administration — Understanding of treaties, legal manuals, judicial proceedings statutes, government legislation, judicial appointments, agency policies, and the constitutional legislative structure.
  • Development and Manufacturing — Utilizing natural resources, process innovations, quality management, prices, and other strategies for optimizing the productive produce and delivery of products.
  • Secretarial — Experience in technical and administrative tools and methodologies such as note-taking, document and record handling, stenography and annotations, the layout of forms as well as other workplace practices and etymology.
  • Computer Application — Well-versed in using computers and Electronics Experience, involving software and coding, of integrated circuits, CPUs, sensors, electrical devices, and computer equipment.
  • Apprehension of Physics — Predictive analytics of basic phenomena, laws, their interactions, and fluid, substance, and air mechanics interpretation techniques, and mechanical, electric, atomic and subatomic structures and processes understanding.

  • Rational Analysis— Involves using intuition and analysis to evaluate the positives and disadvantages of different explanations, assumptions, or responses to problems.
  • Processes Assessment — Entails identifying metrics or indices of service quality as well as the steps required to enhance or change effectiveness in relation to the system's objectives.
  • Surveillance — Means keeping track of and reviewing your own, other people's, or organisations' results in order to make changes or take disciplinary measures.
  • Intensive Learning — Involves comprehending the consequences of emerging knowledge for both present and expected challenges, as well as strategies to overcome them.
  • Task Management — Solving entails recognizing specific challenges and evaluating relevant knowledge in order to create, analyse, and execute approaches.

Once you procure the required qualifications for becoming a Wind Energy Engineer, a myriad of options are open to you. There are multiple projects you can undertake throughout this line of work, and there are many other fields you can branch out to as well.

  • GIS Specialist: Geographic Information Systems (GIS) expert provides most of this information in the form of maps of site properties such as ground zone borders, power lines, utilities, ecological vulnerable zones, landforms, wind energy, turbines, microsites, and terrain. These diagrams are used at any stage of the planning process, from power production to building. GIS provides the complexity needed to integrate several data layers.
  • Wind Turbine Designer: The method of determining the shape and parameters of a wind turbine to harvest power from the atmosphere is known as wind turbine design. These designers are mainly equipped for the assembly, which includes the appropriate equipment for capturing wind energy, pointing the turbines towards the wind, converting kinetic motion into electrical power, as well as other structures for starting, stopping, and controlling the turbine. A full wind power framework must include the construction of the hub, motors, engine, supportive frame, and base in response to the aerodynamics of the blades.
  • Field Test Engineer: The field test engineer can be found in a number of industries, including technology, mechanical, chemical, and electronic products, to name a few. The position and duties will differ depending on the sector in which he or she works. His/her primary duty, moreover, is to guarantee that the material is properly reviewed so that no problems arise when it is utilized. His/her responsibilities begin with development and implementation, preceded by examination.
  • Utility Engineers: Utilities engineers are qualified engineers that usually work with public infrastructure which provides cities with electricity, water, LPG, or drainage facilities. They frequently have mechanical or civil engineering experience. They seek to change the way these programmes are provided to households and workplaces, often participating in public works initiatives that bring innovative programs to residents while also hoping to enhance current programs with improved technologies and better practises.
  • Principal Engineer: A principal engineer is in charge of overseeing the underlying innovation program of the proposed development, which involves communicating with the customer for development and feedback, as well as making changes as required depending on the standards and conditions of the client. The equipment and services used are often reviewed by the primary technicians to determine whether the initiative remains within the target and schedule.

Academic Content Writing can opt for various fields of work in the companies listed below:

  • Schweitzer Engineering Laboratories
  • GE Wind Energy Ltd.
  • Schneider Electric
  • Indowind Energy Ltd.
  • Eaton
  • Orient Green Power Ltd.
  • Open Systems International
  • Microsoft
  • Google
  • Enercon India Pvt.
  • POWER Engineers
  • Constellation
  • Suzlon Energy Limited.

  • Manipal Institute of Technology, Manipal
  • College of Engineering, Pune
  • SRM Institute of Science and Technology, Chennai
  • Dayananda Sagar College of Engineering, Bangalore
  • PSG College of Technology, Coimbatore
  • Indian Institute of Technology, Kharagpur
  • National Institute of Technology, Hamirpur
  • Amrita Vishwa Vidyapeethnam, Coimbatore
  • Indian Institute of Technology, Delhi
  • School of Energy Studies, University of Pune

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