Title :
Optimally sizing battery storage and renewable energy sources on an off-grid facility
Author_Institution :
DNV KEMA, Fairfax, VA, USA
Abstract :
We consider the problem of sizing battery storage and renewable sources such as PV arrays and wind turbines at an off-grid facility. We consider the power reliability criterion of FLNS - the fraction of total load that can not be served. We present a linear program and a more general convex optimization problem to solve for the storage and renewable source sizes. We show that the control policy where the demand is completely served until the battery is empty is optimal for the FLNS criterion. We then show that the required battery size is a decreasing convex function of the renewable source sizes and the power reliability requirement. We show with an example that a different power reliability criterion that has been considered in the literature - LPSP (loss of power supply probability) - does not share the same properties.
Keywords :
battery storage plants; convex programming; linear programming; power generation reliability; power grids; solar cell arrays; wind turbines; FLNS criterion; LPSP; PV arrays; battery size; battery storage; control policy; convex optimization problem; linear program; loss of power supply probability; off-grid facility; power reliability criterion; power reliability requirement; renewable sources; wind turbines; Batteries; Convex functions; Equations; Planning; Power supplies; Reliability; Renewable energy sources;
Conference_Titel :
Power and Energy Society General Meeting (PES), 2013 IEEE
Conference_Location :
Vancouver, BC
DOI :
10.1109/PESMG.2013.6672204
