Solar-driven brine management system for hydrogen, chlorine production
Scientists from Qatar's Hamad Bin Khalifa University have designed a novel solar-driven system for brine management and hydrogen production.
Using the engineering equation solver (EES) software, the team simulated the setup and conducted a thermodynamic assessment that included energy, entropy, and exergy balances.
“Brine, if not managed properly, poses severe ecological risks to marine environments. On land, improper brine disposal can cause soil salinization, rendering agricultural lands unproductive and contaminating groundwater supplies,” the researchers said. “This dual challenge of meeting energy demands while mitigating environmental damage highlights the urgent need for integrated solutions that can simultaneously manage brine efficiently and produce clean energy.”
The suggested system is based on a photovoltaic-thermal (PVT) unit that uses the produced energy to power the different system components and the thermal energy to supply its cooling operation. It also includes a reverse osmosis (RO) desalination unit that converts seawater into freshwater and another byproduct. A reverse electrodialysis (RED) then utilizes the salinity from the rejected RO brine, as well as a tank of low-salinity water, to generate electricity and hydrogen.
Further, a photo-chloralkali (PCA) process converts leftover brine into hydrogen, chlorine, and sodium hydroxide, with the help of photo-active material Cu₂O. In addition, the proton exchange membrane (PEM) fuel cell utilizes hydrogen produced in both RED and PCA to generate electricity. An ejector cooling system uses thermal energy from the PV/T unit to provide cooling for different system parts.
Image: Hamad Bin Khalifa University, International Journal of Hydrogen Energy, CC BY 4.0
“The following assumptions are made during the system's analysis: the reference temperature and pressure considered during analysis are 298 K and 101.325 kPa; the sun surface temperature is assumed to be 5700 K; the seawater brine is composed of NaCl. And feed streams to the RED system is the solution of water and NaCl; the isentropic efficiency of the pump and compressor are considered as 85%; the outlet temperature of fluid leaving the PV/T system is 65 C; the system is operating 8 h/day due to solar irradiation limitations,” said the team.
Among different parameters, the academics set an irradiance of 800 W/m2. 610 PV/T panels with a maximum electrical generation of 300 W were placed to power the system, converting up to 20% of the solar energy into electricity, while the rest is used for its thermal product. The RP system had a recovery rate of 0.6, the RED used 100 cell pairs, the PEM used 200 cells, and the PCA unit used 2.5 V.
The system was found to achieve energy and exergy efficiencies of 66.9% and 23.1%, respectively, with the PVT subsystem showing the highest exergy destruction rate. It could produce 18.78 kg/day of hydrogen and 120.6 m³/day of freshwater.
Customized/OEM/ODM Service
HomSolar Supports Lifepo4 battery pack customization/OEM/ODM service, welcome to contact us and tell us your needs.
HomSolar: Your One-stop LiFePO4 Battery Pack & ESS Solution Manufacturer
Our line of LiFePO4 (LFP) batteries offer a solution to demanding applications that require a lighter weight, longer life, and higher capacity battery. Features include advanced battery management systems (BMS), Bluetooth® communication and active intelligent monitoring.
Customised Lithium Iron Phosphate Battery Casing
ABS plastic housing, aluminium housing, stainless steel housing and iron housing are available, and can also be designed and customised according to your needs.
HomSolar Smart BMS
Intelligent Battery Management System for HomSolar Energy Storage System. Bluetooth, temperature sensor, LCD display, CAN interface, UART interface also available.
Terminals & Plugs Can Be Customized
A wide range of terminals and plugs can be customised to suit the application needs of your battery products.
Well-designed Solutions for Energy Storage Systems
We will design the perfect energy storage system solution according to your needs, so that you can easily solve the specific industry applications of battery products.
About Our Battery Cells
Our energy storage system products use brand new grade A LiFePO4 cells with a battery lifespan of more than 4,000 charge/discharge cycles.
Applications in Different Industries
We supply customized & OEM battery pack, assemble cells with wiring, fuse and plastic cover, all the cell wires connected to PCB plug or built BMS.
Applications: E-bike, Electric Scooter, Golf Carts, RV, Electric Wheelchair, Electric Tools, Robot Cleaner, Robot Sweeper, Solar Energy Storage System, Emergency Light, Solar Power Light, Medical Equipment, UPS Backup Power Supply.
We can provide you with customized services. We have the ability to provide a vertical supply chain, from single cells to pack/module and to a complete power solution with BMS, etc.
HomSolar (Shenzhen) Technology Co., Ltd
