UTA civil engineers shaping sustainable solutions, increasing energy output at landfill

January 19, 2016
Sahadat Hossain, a UTA civil engineering professor, is working with the City of Denton to produce more energy through closed landfill cells through a project that involves mining the already buried refuse. Credit: UT Arlington

Cities, counties and countries have spent decades covering trash with intricate layers of liners and soil in landfills as the best way to protect groundwater and eventually reclaim usable green space.

Now civil engineers at The University of Texas at Arlington are asking whether that refuse should be dug up to recycle it or convert it to energy through modern processes designed to boost methane production in landfills.

UTA and the City of Denton are partnering on a groundbreaking landfill project. The project is supported through a three-year, $399,806 Denton grant. It is the first ever landfill in Texas and first-ever landfill mining project as part of sustainable waste management system in the country.

Professor Sahadat Hossain, director of the UTA Solid Waste Institute for Sustainability, will discuss some of his team's findings and explore best practices in landfill management during the International Solid Waste Association's Winter School on Solid Waste Management - Landfill and Landfill Mining scheduled now through Jan. 29 on the UTA campus. The training program brings together more than 50 representatives, professors, environmental experts and students from 25 countries.

Hossain is currently leading the second phase of a research initiative with the City of Denton that is mining the existing closed landfill with the goal reusing the space - a major component of a sustainable waste management system.

The project is supported through a three-year, $399,806 Denton grant. It is the first ever landfill mining project in Texas and first-ever landfill mining project as part of sustainable waste management system in the country.

The current phase will investigate mined landfill samples to see if the buried materials can be recycled, used for scrap or converted to energy as they degrade. The UTA team also will develop a protocol for future landfill mining operations.

"The idea behind landfill mining is to take out what won't break down in the landfill, and speed up the degradation of what's left," Hossain said. "That allows different cells within the landfill to be used again and again."

Sustainable systems that incorporate landfill mining could extend the typical life of a landfill from the current 25 to 30 years to more than 150 years.

"This would be a major accomplishment as getting new space for landfills in urban cities around the world is getting extremely difficult and expensive," Hossain said.

Hossain and his colleague Melanie Sattler, an associate professor of civil engineering, first designed an extensive sensor system to boost methane production as an in 2012. With UTA's advanced bioreactor, the Denton landfill system now generates enough methane gas to power 5,000 homes monthly.

Vance Kemler, Denton's general manager of operations, said the collaboration with UTA is attracting attention across North Texas and beyond.

"Those landfill and environmental officials are discovering that landfills are resources, not just expenses," Kemler said. "This latest research will show that mining could be productive to cities. What's recyclable or not has changed since some of this refuse has been buried. Dr. Hossain will show if those materials can be used for additional energy."

In addition to Denton, representatives from Irving and Grand Prairie have joined the Solid Waste Institute for Sustainability's advisory board as have researchers and officials from Brazil, Japan, Portugal, Thailand, Turkey, Serbia and the United Kingdom.

Khosrow Behbehani, dean of the UTA College of Engineering, said Dr. Hossain's work exemplifies the global environmental impact envisioned in UTA's Strategic Plan 2020 | Bold Solutions: Global Impact.

"Dr. Hossain is advancing both our understanding of how to extend the lifespan of landfills and how to capitalize on them as an alternative energy source," Behbehani said. "This is truly exciting research in a living laboratory with the potential to increase sustainability in a critical sector worldwide. And this work has the potential to provide energy to parts of the world with limited resources."

Explore further: Civil engineers increasing energy created from solid waste, potential for future landfill operations

Related Stories

The hidden potential of landfill

May 21, 2015

A recent study carried out by Cranfield University has demonstrated the potential value of extracting rare earth elements (REE) and valuable metals from landfill sites.

Estimating landfill gas potential

May 26, 2011

Research suggests that landfill gas-recovery projects should be implemented quickly if the maximum amount of methane gas is to be retrieved from organic waste in as short as time as possible, according to a study published ...

Recommended for you

Scientists dispute missing dryland forests

November 21, 2017

Scientists are disputing the possibility that a significant portion of the world's forests have been missed in an earlier accounting of ecological diversity.


Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.