Free Newsletter
Register for our Free Newsletters
Newsletter
Zones
Advanced Composites
LeftNav
Aerospace
LeftNav
Amorphous Metal Structures
LeftNav
Analysis and Simulation
LeftNav
Asbestos and Substitutes
LeftNav
Associations, Research Organisations and Universities
LeftNav
Automation Equipment
LeftNav
Automotive
LeftNav
Biomaterials
LeftNav
Building Materials
LeftNav
Bulk Handling and Storage
LeftNav
CFCs and Substitutes
LeftNav
Company
LeftNav
Components
LeftNav
Consultancy
LeftNav
View All
Other Carouselweb publications
Carousel Web
Defense File
New Materials
Pro Health Zone
Pro Manufacturing Zone
Pro Security Zone
Web Lec
Pro Engineering Zone
 
 
 
News

Researchers study why waste in bioreatctor landfills degrades in haste

University Of Wisconsin-Madison : 31 August, 2006  (Technical Article)
It's not that the University of Wisconsin-Madison professor of civil and environmental engineering is excessively messy. Rather, he's studying bioreactor landfills, a relatively recent technology in solid-waste management that may help landfill owners make better use of their land-and of the waste itself.
Traditional landfills incorporate systems to collect leachate and limit waste exposure to liquids like rain. However, bioreactor landfills, which have emerged over the past decade, are designed to recirculate liquids such as rainwater or leachate through the waste to break it down more efficiently. 'Rather than sending the leachate-the contaminated liquid-off site to be treated at a plant, we just pipe it back up and send it through the waste to help the degradation process,' says Benson.

He and Morton Barlaz, a professor of civil and environmental engineering at North Carolina State University, are developing computer-based tools that will help predict bioreactor landfill behavior. Their comprehensive research project combines their expertise in solid-waste containment, hydrology and decomposition.

Thanks to advances like improved liners and barrier systems for traditional landfills, bioreactor landfill managers can operate their sites without worrying that the liquid will leak and contaminate groundwater. 'Things that go in a landfill stay in there,' says Benson. 'So we can put liquids in confidently.'

Because liquids enhance microbial processes that are key to waste degradation, one benefit to bioreactor landfill owners is increased 'airspace,' or volume, in the landfill. Since landfills close when the land and airspace are full, bioreactor landfill owners are able to squeeze more years of life out of their land.

Owners of traditional landfills pay to send their leachate to a water-treatment plant, while bioreactor landfill owners can avoid such costs. 'As the system goes through its biochemical changes, it tends to lock up most of the contaminants, which is a real advantage,' says Benson. 'So you have a more sustainable management system. It's cleaning itself.'

A number of demonstration bioreactor landfills exist in Canada and the United States. 'There's a lot of interest in this nationwide in the solid-waste community because of the practical and economic advantages,' he says. 'This is something that a lot of people are trying.'

Bioreactor landfills are relatively simple in concept; yet, it's difficult to predict their behavior-in part, because there are so many variables, says Benson. For example, the waste material itself is comprised of many materials. The biological processes that break down waste can vary. Thermal conditions within the landfill, as well as the amount, temperature and type of recirculated liquid, can change.

For their research, Benson and Barlaz each have established bioreactor landfills in their own laboratories. With industrial partners, they have installed sensors in several operating bioreactor landfills around the country and are monitoring their processes and conditions. Eventually, they will construct computer models to simulate those processes and conditions.

Their data and resulting predictive tools could help state and federal agencies regulate and evaluate bioreactor landfills. They also may help waste management companies make decisions about locating and operating new landfills.

A three-year, $750,000 National Science Foundation Partnerships for Innovation grant is funding the project.
Bookmark and Share
 
Home I Editor's Blog I News by Zone I News by Date I News by Category I Special Reports I Directory I Events I Advertise I Submit Your News I About Us I Guides
 
   © 2012 NewMaterials.com
Netgains Logo