Annual Report 2015

52

NOWITECH

Norwegian Research Centre for Offshore Wind Technology

Books / Chapter in books / Theses

1.

Simonsen, T.; Tønset, C.; “Droplet Erosion Resistant Coatings for Offshore Wind Turbine Blades: Testing

in Harsh Conditions” - Bachelor Thesis

2.

Valaker, E.A.; “Droplet Erosion Protection Coatings for Offshore Wind Turbine Blades” - Master Thesis

3.

Slimacek, V.; “Heterogeneous Poisson processes with application to wind turbine reliability”; PhD Thesis

4.

Nordanger, K.;”Two-dimensional simulation methods for offshore wind turbines” - Doctoral Thesis

5.

Zwick, D.; “Simulation and Optimization in Offshore Wind Turbine Structural Analysis” - Doctoral Thesis

6.

Wang, K.; “Modelling and dynamic analysis of a semi-submersible floating vertical axis wind turbine” -

Doctoral Thesis

7.

Valavi, M.; “Magnetic Forces and Vibration in Wind Power Generators” - Doctoral Thesis

8.

Barrera-Cardenas, R.A.; “Meta-parametrised meta-modelling approach for optimal design of power

electronics conversion systems: application to offshore wind energy” - Doctoral Thesis

9.

Zhang, Z.; “Ironless Permanent Magnet Generators for Direct-Driven Offshore Wind Turbines” – Doctoral

Thesis

10. Nejad, A.; “Dynamic Analysis and Design of Gearboxes in Offshore Wind Turbines in a Structural

Reliability Perspective” – Doctoral Thesis

11. Bjørgum, A.; Hofmann, M.; Welte, T.; “Life cycle cost analysis for corrosion protective coatings – offshore

wind turbines”, Book title: Life Cycle Costing for the analysis, management and maintenance of civil

engineering infrastructure, Whittles Publishing, ISBN: 978-184995-148-7

Reports

1.

Hofmann, M.; Sperstad, I.B.; Kolstad, M.L.; “Technical documentation of the NOWIcob tool (for NOWIcob

version 3.2)”; SINTEF Energi AS

2.

Valland, A.; Solstad, T.; Hope, B.; “RPAS for inspection of wind turbine blades”; MARINTEK

3.

Gaarder, R.H.; Fernandes Reia da Costa, E.; “Fatigue testing of wind turbine blade UD-glass fibre

reinforced epoxy resin composite”, SINTEF Materials and Chemistry

4.

Baptiste, L.; Jørgensen, J.K.; Notta-Cuvier, D.; “Mechanical modelling of wind turbine rotor blades and

composite materials, and more precisely Dynamic modelling of self-adaptive wind turbine blade”,

SINTEF Materials and Chemistry

5.

Reigstad, Tor Inge; Svendsen, H.G; “Wind farm control applications for Windscanner infrastructure”,

SINTEF Energi AS

6.

Sperstad, I.B.; “Survey of literature on offshore wind farm grid reliability analysis”, SINTEF Energi AS

7.

Schepers et al.; Svendsen. HG; “EERA DTOC calculation of scenarios”, ECN; SINTEF Energi AS

8.

Bachynski, E.; “Wind turbine functionality in NIRWANA”, MARINTEK

9.

Margheritini, L.; Sperstad, I.B.; Rialland, A.I.; “The capitalisation potential for ports during the

development of marine renewable energy”; Aalborg University; SINTEF Energi AS; MARINTEK

10. Tande, J.O.; NTVA Review 2014; ISBN 978-82-7719-077-8

11. Bachynski, E.; “External Wind Turbine Controller Interface and Extended Support for Wind Field Inputs

for SIMO and RIFLEX”, MARINTEK

12. Nejad, A.R. et al; “Recommendations on Model Fidelity for Wind Turbine Gearbox Simulations”, NTNU et

al

13. Merz, K.; “Environmental Loads for Frequency Domain Aeroelastic Analysis of Offshore Wind Turbines”;

SINTEF Energi AS

14. Bachynski, E.; “Vertical Axis Wind Turbines in SIMO”; MARINTEK

15. Merz, K.; “A Linear State-Space Model of an Offshore Wind turbine, Implemented in the STAS Wind

Power Plant Analysis Program”; SINTEF Energi AS

16. Hofmann, M.; Sperstad, I.B.; Kolstad, M.; “Technical documentation of the NOWIcob tool (D5.1-66)”,

SINTEF Energi AS

17. Hofmann, M.; Sperstad, I.B.; Kolstad, M.; “User guide for the NOWIcob tool”, SINTEF Energi AS

18. Valland, A.; Brurok, T.; Norddal, P.K.; Lindqvist, B.; Slimacek, V.; “D.5.2-19 – Probabilistic modeling of

wind farm using TCI framework”, MARINTEK