Process using activated charcoal foam to remove all traces of oil in produced water has been developed at Purdue University
Purdue University researchers have developed a process to remove nearly all traces of oil in produced water. According to Phys.org, the process uses activated charcoal foam and subjects it to solar light to produce heat and purify the water. The foam absorbs the oil contaminants from the water.
According to Phys.org, the Purdue process was presented during the annual conference for the Produced Water Society in February.
"This is a simple, clean and inexpensive treatment process," said Ashreet Mishra, a graduate research assistant at Purdue University Northwest Water Institute. "I have seen in my home country of India how people suffer for the want of pure water, and we as researchers need to do as much as we can to help."
The Purdue's team process meets all EPA standards for clean water from industrial sources and had a total organic carbon of 7.5 milligrams per liter. Mishra said another advantage is that the oil absorbed by the foam can be recovered efficiently. According to Phys.org, the Purdue researchers were able to recover up to 95% of the oil that was absorbed.
"This is the first-of-its kind method to do this purification in a single step simultaneously via a perforated foam," Mishra said. "Our process is able to address the cost and energy aspects of the problem."
Mishra said the Purdue process could be integrated with existing disposal systems to purify a large amount of water and reduce the current stress on water grids. According to Phys.org, researchers are working with the Purdue Research Foundation Office of Technology Commercialization to patent the innovation, and they are looking for partners to continue developing it.
According to Phys.org, about 2.5 billion gal of produced water, a byproduct from the oil refinery and extraction process, is generated each day in the U.S.
Handling the produced water is a major challenge in the oil refinery industry, particularly because it is deemed unusable for household and commercial use by the Environmental Protection Agency because of remaining contaminants. According to Phys.org, several commercial treatments are available, however, they are expensive and do not remove all traces of contaminants from water and can be energy-intensive.