Picture offshore wind farm

Open Access research that is improving renewable energy technology...

Strathprints makes available scholarly Open Access content by researchers across the departments of Mechanical & Aerospace Engineering (MAE), Electronic & Electrical Engineering (EEE), and Naval Architecture, Ocean & Marine Engineering (NAOME), all of which are leading research into aspects of wind energy, the control of wind turbines and wind farms.

Researchers at EEE are examining the dynamic analysis of turbines, their modelling and simulation, control system design and their optimisation, along with resource assessment and condition monitoring issues. The Energy Systems Research Unit (ESRU) within MAE is producing research to achieve significant levels of energy efficiency using new and renewable energy systems. Meanwhile, researchers at NAOME are supporting the development of offshore wind, wave and tidal-current energy to assist in the provision of diverse energy sources and economic growth in the renewable energy sector.

Explore Open Access research by EEE, MAE and NAOME on renewable energy technologies. Or explore all of Strathclyde's Open Access research...

Browse by Author or Creator

Up a level
Export as [feed] Atom [feed] RSS 1.0 [feed] RSS 2.0
Group by: Publication Date | Item type | No Grouping
Jump to: 2018 | 2017 | 2014 | 2013 | 2012 | 2011 | 2009
Number of items: 11.

2018

Hart, E and Leithead, W E and Feuchtwang, J (2018) Wind turbine Cpmax and drivetrain-losses estimation using Gaussian process machine learning. Journal of Physics: Conference Series, 1037. ISSN 1742-6588

2017

Hart, E and Turnbull, A and McMillan, D and Feuchtwang, J and Golysheva, E and Elliott, R (2017) Investigation of the relationship between main-bearing loads and wind field characteristics. Journal of Physics: Conference Series, 926. ISSN 1742-6588

2014

Carroll, James and McDonald, Alasdair and McMillan, David and Feuchtwang, Julian (2014) Offshore availability for wind turbines with a hydraulic drive train. In: 3rd Renewable Power Generation Conference (RPG), 2014-09-24 - 2014-09-25.

Carroll, James and McDonald, Alasdair and Feuchtwang, Julian and McMillan, David (2014) Drivetrain availability in offshore wind turbines. In: European Wind Energy Association 2014 Annual Conference, 2014-03-10 - 2014-03-13.

2013

Feuchtwang, Julian and Infield, David (2013) Offshore wind turbine maintenance access : a closed-form probabilistic method for calculating delays caused by sea-state. Wind Energy, 16 (7). pp. 1049-1066. ISSN 1095-4244

Soraghan, Conaill E. and Leithead, William E. and Yue, Hong and Feuchtwang, Julian (2013) Double multiple streamtube model for variable pitch vertical axis wind turbines. In: 43rd AIAA Fluid Dynamics Conference and Exhibit, 2013-06-24 - 2013-06-27, California.

2012

Feuchtwang, Julian and Infield, David (2012) Accessing offshore wind turbines for maintenance : calculating access probabilities, expected delays and the associated costs using a probabilistic approach. In: 42nd ESReDA Seminar on Risk and Reliability for Wind Energy and other Renewable Sources, 2012-05-14 - 2012-05-16.

2011

Yuan, Yue and Zhou, Jianhua and Ju, Ping and Feuchtwang, Julian (2011) Probabilistic load flow computation of a power system containing wind farms using the method of combined cumulants and gram-charlier expansion. IET Renewable Power Generation, 5 (6). pp. 448-454. ISSN 1752-1416

Quail, Francis and Feuchtwang, Julian (2011) Wind turbine condition monitoring. In: NREL Wind Turbine Condition Monitoring Conference, 2011-09-17 - 2011-09-21.

Feuchtwang, Julian and Infield, David (2011) Estimating the cost of offshore maintenance and the benefit from condition monitoring. In: European Offshore Wind Conference 2011, 2011-11-29 - 2011-12-01.

2009

Feuchtwang, Julian and Infield, David (2009) The offshore access problem and turbine availability : probabilistic modelling of expected delays to repairs. In: European Offshore Wind Conference 2009, 2009-09-14 - 2009-09-16.

This list was generated on Fri Sep 21 13:00:06 2018 BST.