Optimizing the Investment Strategy of Fully Renewable Energy Water Systems

Riera, Jefferson; Lima, Ricardo; Hoteit, Ibrahim; Knio, Omar

dc.contributor.author	Riera, Jefferson
dc.contributor.author	Lima, Ricardo
dc.contributor.author	Hoteit, Ibrahim
dc.contributor.author	Knio, Omar
dc.date.accessioned	2021-09-12T09:41:06Z
dc.date.available	2021-09-12T09:41:06Z
dc.identifier.uri	http://hdl.handle.net/10754/671144
dc.description.abstract	The interdependence between the water and power sectors is of growing concern as the need for desalination increases. Therefore, co-optimizing interdependent systems is necessary to understand the sectors impact on one another. We propose a framework to identify the optimal investment mix for a co-optimized water-power system, and apply it to NEOM, Saudi Arabia. Our results show that investment strategies that consider the co-optimization of both systems result in total cost savings for the power sector, when compared to naïve approaches. Analysis results suggest that the system with higher shares of non-dispatchable renewables experience the largest cost reductions.
dc.subject	Energy
dc.subject	Water
dc.subject	Optimization
dc.subject	Power systems
dc.subject	Water desalination
dc.title	Optimizing the Investment Strategy of Fully Renewable Energy Water Systems
dc.type	Preprint
dc.contributor.department	Physical Science and Engineering Division
dc.contributor.department	Computer, Electrical and Mathematical Sciences & Engineering Division
refterms.dateFOA	2021-09-12T09:41:07Z