Reverse Osmosis Desalination Plants Energy Consumption Management and Optimization for Improving Power Systems Voltage Stability with PV Generation Resources

• Published in: Energies (Basel) Vol. 14; no. 22; p. 7739
• Main Authors: Haidar, Zeyad A., Al-Saud, Mamdooh, Orfi, Jamel, Al-Ansary, Hany
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.11.2021
• Subjects: Algorithms; Brackish water; Desalination; Desalination plants; Electrical loads; Energy consumption; energy consumption management; Energy storage; Flexibility; Fresh water; Integration; Maximum power; Optimization; Photovoltaics; Power consumption; Power flow; Power lines; Power plants; Reverse osmosis; RO desalination plants; Saline water; Salinity; Seawater; Shutdowns; solar PV plants; Voltage; Voltage stability; Water quality; Water shortages; Water supply; Water treatment
• ISSN: 1996-1073; 1996-1073
• DOI: 10.3390/en14227739

This paper studies energy consumption management of seawater Reverse Osmosis (RO) desalination plants to maintain and enhance the Voltage Stability (VS) of Power Systems (PS) with Photovoltaic (PV) plant integration. We proposed a voltage-based management algorithm to determine the maximum power consumption for RO plants. The algorithm uses power flow study to determine the RO plant power consumption allowed within the voltage-permissible limits, considering the RO process constraints in order to maintain the desired fresh water supply. Three cases were studied for the proposed RO plant: typical operation with constant power consumption, controlled operation using ON/OFF scheduling of the High-Pressure Pumps (HPPs) and controlled operation using Variable Frequency Drive (VFD) control. A modified IEEE 30-bus system with a variable load was used as a case study with integration of three PV plants of 75 MWp total power capacity. The adopted 33.33 MW RO plant has a maximum capacity of 200,000 m3/day of fresh water production. The results reveal that while typical operation of RO plants can lead to voltage violation, applying the proposed load management algorithm can maintain the vs. of the PS. The total transmission power loss and power lines loading were also reduced. However, the study shows that applying VFD control is better than using ON/OFF control because the latter involves frequent starting up/shutting down the RO trains, which consequently requires flushing and cleaning procedures. Moreover, the specific energy consumption (SEC) and RO plant recover ratio decreases proportionally to the VFD output. Furthermore, the power consumption of the RO plant was optimized using the PSO technique to avoid unnecessary restriction of RO plant operation and water shortage likelihood.