GE ADVANCING ‘ENERGY NEUTRALITY’ FOR MUNICIPAL WASTEWATER TREATMENT WITH INTRODUCTION OF ZEELUNG* MEMBRANE AERATED BIOFILM REACTOR TECHNOLOGY
• ZeeLung Membrane Aerated Biofilm Reactor is four times more energy efficient than conventional fine bubble aeration systems
• New technology offers simple, ultra low-energy nutrient removal in a small footprint
• Municipal Treatment Plants account for 35 percent of local government energy budgets
• ZeeLung’s introduction highlights resource recovery potential of Wastewater Treatment Plants
The energy used by water and wastewater treatment plants in the United States accounts for 35 percent of a typical local government’s energy budget. To address this, GE formally introduced its new ZeeLung* Membrane Aerated Biofilm Reactor (MABR) technology that is four times more energy efficient than existing aeration systems during WEFTEC 2015. Aeration for biological treatment is the largest energy consumer in a wastewater treatment plant, typically representing 60 percent of a facility’s power usage.
ZeeLung MABR technology is a simple solution that allows municipalities to achieve nutrient removal and/or capacity expansion in existing tank volumes while significantly reducing energy consumption. ZeeLung cassettes are immersed in existing bioreactors to improve treatment performance and/or increase treatment capacity without the need to expand the footprint of the facilities.
GE developed the ZeeLung technology to enable wastewater treatment plants to achieve energy neutrality by significantly reducing the energy demand of the largest consumer in a treatment plant—biological process aeration. Coupling this energy reduction with enhanced on-site energy production from advanced anaerobic digestion can achieve energy neutral wastewater facilities—where the energy produced equals or exceeds the energy consumed.
“By inventing ZeeLung, GE is creating an opportunity to transform wastewater treatment plants from disposal facilities to resource recovery centres that yield clean water, nutrients and renewable energy from wastewater,” said Heiner Markhoff, president and CEO—water and process technologies for GE Power & Water. “This is a game-changing innovation in the pursuit of energy neutrality in the municipal wastewater treatment sector that also addresses the need for facilities to upgrade for nutrient removal and capacity expansion within an existing plant footprint.”
Municipal wastewater treatment plants are among the biggest industrial users of energy because they operate 24 hours a day, seven days a week. Publicly owned wastewater treatment systems use 75 billion kilowatt hours of energy annually, which is enough electricity to power 6.75 million homes. More than three percent of all electricity in the United States is used for wastewater treatment.
In conventional biological treatment, fine bubble aeration is used to deliver oxygen to the microorganisms that metabolise the nutrients and organic pollutants in the wastewater. However, this approach is inefficient since most of the oxygen is wasted. To improve the efficiency of this process, GE’s technology team developed the ZeeLung technology, which transfers oxygen by diffusion to a biofilm that grows on the outside surface of the membrane. The microorganisms in the biofilm remove nutrients and organics in the wastewater by metabolising them in the presence of oxygen. The result is a four times reduction in energy compared to conventional fine bubble aeration systems in use today.
ZeeLung technology joins LEAPprimary*, Monsal* advanced anaerobic digestion as well as Jenbacher* gas engines in GE Power & Water’s portfolio of energy neutral wastewater treatment products.
ZeeLung will be commercially available in 2016.