PhD: Materials for Reducing Noise in Wind Turbine Blades

Department/faculty: Aerospace Engineering
Level: Master degree
Working hours: 38 hours per week
Contract: 4 years
Salary: €2222 to €2840 per month gross

Aerospace Engineering

The faculty of Aerospace Engineering at Delft University of Technology is one of the world's largest faculties devoted entirely to aerospace engineering. In the Netherlands it is the only research and education institute directly related to the aerospace engineering sector. It covers the whole spectrum of aerospace engineering subjects. In aeronautics, the faculty covers subjects ranging from aerodynamics and flight propulsion to structures and materials and from control and simulation to air transport and operations. In astronautics, topics include astrodynamics, space missions and space systems engineering. The faculty has around 2,700 BSc and MSc students, 225 PhD candidates and 27 professors supported by scientific staff.
The faculty's mission is to be the best Aerospace Engineering faculty in the world, inspiring and educating students through modern education techniques and enabling staff to perform ambitious research of the highest quality for the future of aerospace. The working atmosphere at the faculty is friendly, open-minded and dedicated.


The project uniquely combines the expertise of three groups from three different departments. The Wind Energy section is part of the Aerodynamics, Wind Energy and Flight Performance and Propulsion (AWEP) Department in the Faculty of Aerospace Engineering. Within the Wind Energy section a new Aeroacoustic group is focusing on applications of permeable materials for airfoil noise reduction.

The Aircraft Noise and Climate Effects (ANCE) section focuses on modelling the effects of aviation on the environment with respect to both noise and emissions. The Aerospace Structures and Materials (ASM) group has extensive experience in advanced materials.

Job description

The present research project aims at developing the new generation of TE design solutions for rotating blades. Most promising materials for noise absorption are open foams. Half-open foams are conventionally manufactured with isotropic holes and mainly used as noise dampers. Modern 3D printing technologies allow the creation of new metallic open foams with several innovative characteristics, including coating and activation of the material shape. The main deliverables of the project are:
1) aerodynamic and aeroacoustics study of the flow properties of such materials and prototyping of a foam insert to be installed at the edge of a wind turbine blade/airfoil
2) specification of the optimal porosity characteristics for the foams (to be produced by other team members) and validation of the predicted effects on noise reduction
3) study of the scalability of such devices to higher Reynolds numbers and angles of attack.

Requirements

The candidate should have an MSc degree in an area relevant to the subject, e.g. aerospace engineering, (applied) physics, applied mathematics, electrical engineering, or mechanical engineering. A combination of good mathematical/analytical skills and a strong interest in performing experiments is required. A solid knowledge of signal processing and advanced programming skills are advantageous for this position. As the project is part of a larger research programme, good social and collaborative skills are important too.

Conditions of employment

The TU Delft offers a customisable compensation package, a discount for health insurance and sport memberships, and a monthly work costs contribution. Flexible work schedules can be arranged. An International Children’s Centre offers childcare and an international primary school. Dual Career Services offers support to accompanying partners. Salary and benefits are in accordance with the Collective Labour Agreement for Dutch Universities.
As a PhD candidate you will be enrolled in the TU Delft Graduate School. TU Delft Graduate School provides an inspiring research environment; an excellent team of supervisors, academic staff and a mentor; and a Doctoral Education Programme aimed at developing your transferable, discipline-related and research skills. Please visit www.tudelft.nl/phd for more information.

Information and application

For more information, please contact Dr. D. Ragni, phone:+31 (0)15-2782053, e-mail: D.Ragni@tudelft.nl or M. Snellen, phone: + 31 (0) 152788144, e-mail M.Snellen@tudelft.nl. To apply, please e-mail a detailed CV and letter of application by 1 September 2017 to D. Ragni, by e-mail to D.Ragni@tudelft.nl.
When applying, please refer to vacancy number LR17-24.
If your MSc diploma and transcript are not in Dutch, English, French or German and you will be the selected candidate, the TU Delft will ask you to deliver a certified translation.


Enquiries from agencies are not appreciated.


Factsheet

Department/faculty
Aerospace Engineering
Level
Master degree
Working hours
38
Location
Delft
Contract
4 years
Salary
€2222 to €2840 per month gross

Closing date
Sept. 1, 2017
Vacancy nr.
LR17-24


Information

For more information about this job, please contact D. Ragni, Assistant Professor.

T +31 (0)15-2782053
E D.Ragni@tudelft.nl

For more information about the application procedure, please contact M. Snellen/AWEP.

E D.Ragni@tudelft.nl


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