Meteorological conditions affecting renewable energy

Show simple item record

dc.contributor.author Tuononen, Minttu
dc.date.accessioned 2019-11-04T10:50:38Z
dc.date.available 2019-11-04T10:50:38Z
dc.date.issued 2019-11
dc.identifier.isbn 978-952-336-083-9
dc.identifier.issn 0782-6117
dc.identifier.uri http://hdl.handle.net/10138/306692
dc.description.abstract Synoptic situation and different meteorological phenomena can highly affect renewable energy production. Investigating different phenomena will give new information on the occurrence and characteristics of specific phenomena and their impacts on renewable energy applications. Different observational data sets and numerical models can be widely used in different phases of renewable energy projects; from planning of the project to help with the operation and the maintenance of the existing wind or solar field. In this thesis a meteorological phenomena, a low-level jet, is investigated. Thesis comprises analysis of the climatological occurrence of low-level jets, their characteristics and forcing mechanisms, as well as numerical model capability to capture the phenomena. In addition, solar radiation forecasts obtained from the operational numerical weather prediction model are evaluated and the role of cloud cover forecast skill in solar radiation forecast error is investigated. Long data sets of observational data: mainly Doppler wind lidar, ceilometer, and solar radiation observations, are used, in addition to reanalysis and operational numerical weather prediction model data. A low-level jet is a wind phenomenon that can affect wind energy production. Nighttime low-level jets are a commonly known boundary-layer phenomenon occurring during stably stratified conditions over flat terrain. In this thesis, new information on the occurrence, characteristics, and forcing mechanisms of a low-level jet was gained in different conditions: in Northern Hemisphere mid-latitude and polar regions based on reanalysis data and at two different sites in Finland and Germany based on long-term Doppler lidar observations. The low-level jet identification algorithms developed in these studies can be used to repeat the studies by using different models covering different areas or at any site operating a Doppler lidar. The low-level jet identification algorithm for Doppler lidar data can also be applied to operationally detect low-level jets, which is useful information for example from wind energy point-of-view. Solar radiation and cloud cover forecasts were evaluated at one site in Finland based on long time-series of solar radiation and ceilometer observations. The role of cloud cover forecast in solar radiation forecast error is investigated. The solar radiation and cloud cover forecasts were obtained from operational numerical weather prediction model that can be used to predict the expected power production at solar field day-ahead. It was found that there is a positive bias in the forecast incoming solar radiation even if the cloud cover forecast is correct. The study can guide model improvements as the bias is likely due to underestimation in the forecast cloud liquid water content or incorrect representation of cloud optical properties. The methods created in this study can be applied to hundreds of sites globally. In addition, the algorithms developed in this study can be further used in different applications in the field of renewable energy, for example to detect potential in-cloud icing conditions. fi
dc.language.iso en fi
dc.relation.ispartofseries Finnish Meteorological Institute Contributions 155 fi
dc.subject Wind energy fi
dc.subject Solar energy fi
dc.subject Low-level jet fi
dc.subject Clouds fi
dc.subject Solar radiation fi
dc.subject Remote sensing fi
dc.subject Doppler lidar fi
dc.subject Ceilometer fi
dc.title Meteorological conditions affecting renewable energy fi
dc.type Thesis fi

Files in this item

Total number of downloads: Loading...

Files Size Format View
Minttu_Tuononen_thesis.pdf 16.94Mb PDF View/Open

This item appears in the following Collection(s)

Show simple item record