Abstract: Embodiments of the present invention may provide methods and systems for enhancing bioreactivity of carbonaceous geological material (11) which may include adding carbonaceous geological material to an electrochemical treatment (18) and creating acidic and basic pH levels, peroxides, and radicals (5) which can increase biochemical reactivity, bioavailability, and water solubility of the carbonaceous geological material to provide a reactive carbonaceous geological material (14).
Abstract: Embodiments of the present invention provide a portable bioelectrochemical electrical signal measuring device that may have at least one anode, at least one cathode, an anode-cathode connector between said at least one anode and said at least one cathode, a load connector between a load and said at least one anode and at least one cathode, and a data meter connected to said load connector wherein the device may measure an electrical signal of a matrix to perhaps determine the microbial activity in the matrix.
Abstract: A bioelectrochemical system device may be used to enhance groundwater pollutant chemical removal or degradation. Such a bioelectrochemical system may be inserted into the environment to be remediated through a variety of techniques, such as through insertion into wells or other access points, trench insertion, direct insertion, borehole insertion, or combinations thereof. In some aspects, the bioelectrochemical system device may have a hollow-tube configuration with an outer ring anode and inner ring cathode. In further aspects, the bioelectrochemical system device may have a modular form that can be combined with multiple other modules such one or more bioelectrochemical system devices.
Type:
Grant
Filed:
June 10, 2015
Date of Patent:
September 10, 2019
Assignees:
Advanced Environmental Technologies, LLC, The Regents of the University of Colorado
Inventors:
Song Jin, Paul Harold Fallgreen, Zhiyong Ren
Abstract: Enhanced contaminant degradation systems via rapid transfer of electrons in an environment or matrix through bioelectrochemical electron transfer circuitry, electron transfer conduit and conductive materials. Specialized circuitry may be used with respect to the anode, cathode, and transmission line design including floating cathodes, anchored anodes, and the like.
Abstract: Enhanced contaminant degradation systems via rapid transfer of electrons in an environment or matrix through bioelectrochemical electron transfer circuitry, electron transfer conduit and conductive materials. Specialized circuitry may be used with respect to the anode, cathode, and transmission line design including floating cathodes, anchored anodes, and the like.