Freeze Distillation Science Fair Projects

Your Title

The title of your science fair project is very important. You will need to devise a topic that is interesting and that captures the essence of your project.

EDU-36820 C2D Discovery Planet Digital Microscope	Young Scientists Club Set 2	Discovery Planet EDU-41021 Maxscope Videoscope	Student, HomeSchool & Adult Microscopes
Ages 8 and up	Ages 5 - 8	Ages 10 and up	Age 10 thru College

Objectives/Goals

The purpose of this project was to determine the viability of freeze desalination (FD) as a preliminary treatment process to reverse osmosis (RO) by measuring its efficiency through theoretical analysis and assessing its effectiveness through experimentation to find the removal of salts. FD involves a process in which seawater is placed in a freezer unit circulated with a refrigerant at very low temperatures until it is partially frozen creating an ice-brine slurry. The freezing process causes impurities to be largely excluded from the ice crystals which are relatively salt free. The ice is then separated from the brine and melted resulting in a solution with lesser saline concentration. It was hypothesized that FD would be a viable feeder process to known processes such as RO because of its potential to increase overall efficiency and decrease costs by decreasing pressure and membrane requirements through its removal of salts.

Methods/Materials

The theoretical analysis was conducted by utilizing Van't Hoff's equation: pi=cRT and determining the independent energy requirements to conduct FD and RO. The experimental analysis was conducted by designing an FD apparatus consisting of a constant temperature bath and a stainless steel vessel with an external jacket to circulate a refrigerant. 500mL of synthetically produced seawater solutions were then frozen at times of 35, 40, and 45 minutes.

Results

The results of the theoretical analysis comparing the energy requirements for RO and FD, showed that RO would take ~11.6 kJ and FD would take ~370 kJ to produce one liter of filtered water proving that RO is far more efficient than FD.

The experimental data showed that the volume of ice proportionally increased with higher freezing times. The entrainment ratio, the ratio of brine that adheres and freezes in the ice during the process, however, increased as freezing time progressed and the percentage of removal of salts consistently decreased showing that freezing for a lower time would allow for less entrainment along with a higher removal of salts lowering energy costs for reverse osmosis, but would entail lesser yield.

Conclusions/Discussion

It was concluded that with current conditions, FD is not a viable feeder process to RO, but the experimental results still prove the effectiveness of the process in removing salts suggesting its future viability with further innovation. 3rd party contributor