Add to ORKGWe present a discrete optimisation model that chooses an optimal fleet of vessels to support maintenance operations at Offshore Wind Farms (OFWs). The model is presented as a bi-level problem. On the first (tactical) level, decisions are made on the fleet composition for a certain time horizon. On the second (operational) level, the fleet is used to optimise the schedule of operations needed at the OWF, given events of failures and weather conditions
The rapid growth expected in the offshore wind sector presents a growing opportunity to find savings...
AbstractIn this paper we consider the problem of determining the optimal fleet size and mix of vesse...
In this paper we consider the problem of determining the optimal fleet size and mix of vessels to su...
We present a discrete optimisation model that chooses an optimal fleet of vessels to support mainten...
We present a discrete optimisation model that chooses an optimal fleet of vessels to support mainten...
We present a discrete optimisation model that chooses an optimal fleet of vessels to support mainten...
Performing maintenance operations at offshore wind farms involves one major challenge compared with ...
AbstractPerforming maintenance operations at offshore wind farms involves one major challenge compar...
Performing maintenance operations at offshore wind farms involves one major challenge compared with ...
Today the offshore wind energy industry needs financial support to be profitable.For offshore wind f...
Chartering a vessel fleet to support maintenance operations at offshore wind farms (OWF's) constitut...
The paper presents a model to coordinate the predictive-preventive maintenance process of Offshore W...
Maintenance operations at offshore wind farms are challenging due to the offshore element; maintenan...
In this paper we consider the problem of determining the optimal fleet size and mix of vessels to su...
Maintenance costs account for a large part of the total cost of an offshore wind farm. Several model...
The rapid growth expected in the offshore wind sector presents a growing opportunity to find savings...
AbstractIn this paper we consider the problem of determining the optimal fleet size and mix of vesse...
In this paper we consider the problem of determining the optimal fleet size and mix of vessels to su...
We present a discrete optimisation model that chooses an optimal fleet of vessels to support mainten...
We present a discrete optimisation model that chooses an optimal fleet of vessels to support mainten...
We present a discrete optimisation model that chooses an optimal fleet of vessels to support mainten...
Performing maintenance operations at offshore wind farms involves one major challenge compared with ...
AbstractPerforming maintenance operations at offshore wind farms involves one major challenge compar...
Performing maintenance operations at offshore wind farms involves one major challenge compared with ...
Today the offshore wind energy industry needs financial support to be profitable.For offshore wind f...
Chartering a vessel fleet to support maintenance operations at offshore wind farms (OWF's) constitut...
The paper presents a model to coordinate the predictive-preventive maintenance process of Offshore W...
Maintenance operations at offshore wind farms are challenging due to the offshore element; maintenan...
In this paper we consider the problem of determining the optimal fleet size and mix of vessels to su...
Maintenance costs account for a large part of the total cost of an offshore wind farm. Several model...
The rapid growth expected in the offshore wind sector presents a growing opportunity to find savings...
AbstractIn this paper we consider the problem of determining the optimal fleet size and mix of vesse...
In this paper we consider the problem of determining the optimal fleet size and mix of vessels to su...