Skip to main content

The Green Machine: Algae Clean Wastewater, Convert to Biodiesel

Researchers at Rochester Institute of Technology are developing biodiesel from microalgae grown in wastewater. The project is doubly "green" because algae consume nitrates and phosphates and reduce bacteria and toxins in the water. The end result: clean wastewater and stock for a promising biofuel.
The purified wastewater can be channeled back into receiving bodies of water at treatment plants, while the biodiesel can fuel buses, construction vehicles and farm equipment. Algae could replace diesel's telltale black puffs of exhaust with cleaner emissions low in the sulfur and particulates that accompany fossil fuels.
Algae have a lot of advantages. They are cheaper and faster to grow than corn, which requires nutrient-rich soil, fertilizer and insecticide. Factor in the fuel used to harvest and transport corn and ethanol starts to look complicated.
In contrast, algae are much simpler organisms. They use photosynthesis to convert sunlight into energy. They need only water -- ponds or tanks to grow in -- sunlight and carbon dioxide.
"Algae -- as a renewable feedstock -- grow a lot quicker than crops of corn or soybeans," says Eric Lannan, who is working on his master's degree in mechanical engineering at RIT. "We can start a new batch of algae about every seven days. It's a more continuous source that could offset 50 percent of our total gas use for equipment that uses diesel."
Cold weather is an issue for biodiesel fuels.
"The one big drawback is that biodiesel does freeze at a higher temperature," says Jeff Lodge, associate professor of biological sciences at RIT. "It doesn't matter what kind of diesel fuel you have, if it gets too cold, the engine's not starting. It gels up. It's possible to blend various types of biodiesel -- algae derived with soybeans or some other type -- to generate a biodiesel with a more favorable pour point that flows easily."
Lannan's graduate research in biofuels led him to Lodge's biology lab. With the help of chemistry major Emily Young, they isolated and extracted valuable fats, or lipids, algae produce and yielded tiny amounts of a golden-colored biodiesel. They are growing the alga strain Scenedesmus, a single-cell organism, using wastewater from the Frank E. Van Lare Wastewater Treatment Plant in Irondequoit, N.Y.
"It's key to what we're doing here," Lodge says. "Algae will take out all the ammonia -- 99 percent -- 88 percent of the nitrate and 99 percent of the phosphate from the wastewater -- all those nutrients you worry about dumping into the receiving water. In three to five days, pathogens are gone. We've got data to show that the coliform counts are dramatically reduced below the level that's allowed to go out into Lake Ontario."
Assemblyman Joseph Morelle, whose district includes Irondequoit, applauds RIT's initiative. "Innovations developed at great academic institutions such as RIT will be key to solving many of the challenges we face, from revitalizing the upstate economy to the creation of clean, renewable energy sources for the future. Professor Lodge and Eric Lannan's research bridges the gap between cost efficiency and environmental conservation and is a perfect example of how old problems can yield to new and creative solutions."
Lodge and Lannan ramped up their algae production from 30 gallons of wastewater in a lab at RIT to 100 gallons in a 4-foot-by-7-foot long tank at Environmental Energy Technologies, an RIT spinoff. Lannan's graduate thesis advisor Ali Ogut, professor of mechanical engineering, is the company's president and CTO. In the spring, the researchers will build a mobile greenhouse at the Irondequoit wastewater treatment plant and scale up production to as much as 1,000 gallons of wastewater.
Northern Biodiesel, located in Wayne County, will purify the lipids from the algae and convert them into biodiesel for the RIT researchers.

source- science daily.

Comments

Popular posts from this blog

Influenza A detection by MDCK cell line

The influenza A (IA) virus is the principal cause of the outbreaks of flu. A large number of laboratories participate in the worldwide surveillance of influenza virus activity and contribute to the early recognition of newly emerging epidemic strains. Differentiation between influenza A and B viruses and determination of the subtypes of influenza A virus isolates are the first steps in the characterization of influenza viruses. This analysis is traditionally done by hemagglutination inhibition (HI) tests with specific antisera raised in ferrets, chickens, or sheep. The diagnosis of Influenza A is largely clinical. Nevertheless, it is necessary to carry out some form of rapid antigenic diagnosis and the culture of respiratory samples to confirm the etiology of the respiratory disease and to determine the antigenic characteristics of the epidemic strains. Although the “gold standard” isolation technique is inoculation in embryonated hens’ eggs, the technical difficulties involved and t...

WORKSHOP ON: Prospecting Traditional Herbal Therapy to Modern Drug Discovery

The Institutional Biotech Hub, Department of Biotechnology, Gauhati University is organizing a 7 days’ workshop cum training program on “Prospecting Traditional Herbal Therapy to Modern Drug Discovery” from 22nd May to 28th May 2017. The last date for receipt of application form is 15th May 2017. Interested participants may visit the following link for details and to download the application form. http://www.gauhati.ac.in/notification/1492772527biotech%20hub%20workshop2017.pdf

SOME INSTITUTE FOR SUMMER TRAINING/FINAL YEAR DISSERTATION/INTERNSHIP..

Center For Cellular and Molecular Biology (CCMB) <http://www.ccmb.res.in/>. Central Drug Research Institute (CDRI) <http://www.cdriindia.org/> Central Food Technological Research Institute (CFTRI) <http://www.cftri.com/> Central Institute of Medicinal and Aromatic Plants (CIMAP), <http://www.cimap.res.in/> Central Leather Research Institute (CLRI) Chennai <http://www.clri.org/> Institute of Genomics and Integrative Biology (IGIB)<http://www.igib.res.in/> Institute of Himalayan Bioresource Technology (IHBT),<http://www.ihbt.res.in/> Indian Institute of Chemical Biology (IICB)<http://www.iicb.res.in/> Indian Institute of Chemical Technology (IICT), <http://www.iictindia.org/> Institute of Microbial Technology (IMTECH)<http://imtech.res.in/> Indian Toxicology Research Center (ITRC) <http://www.itrcindia.org/> National Chemical Laboratory (NCL) Pune <http://www.ncl-india.org/> National Environmental Engineering Resear...