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BURGE ENVIRONMENTAL, INC.
UEI: EVKCLDHVWD79
# of Employees: 9
HUBZone Owned: No
Socially and Economically Disadvantaged: Yes
Woman Owned: No
Award Charts
Award Listing
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3D-Bioimaging of Charge Transfer within Biofilms Associated with Plants
Amount: $1,647,680.00Bioimaging of plant/microbial interactions was identified as an important tool in understanding the factors controlling the production of biomass. Presently, no field- deployable research instrumentat ...
SBIRPhase II2021Department of Energy -
3D-Biomaging of Charge Transfer Within Biofilms Associated with Plants
Amount: $198,336.00No commercial technologies exist to image the transfer of charge in real-time through plant/microbial interactions. It has been previously recognized that microbial biofilms may represent a parallel n ...
SBIRPhase I2020Department of Energy -
Microbial Potentiometric Sensors for Determination of Algal Biomass and the Impacts of Nutrient Loading
Amount: $206,140.00No real-time commercial technologies exist: (1) to measure and understand changes in algal biomass, including predictions of algal blooms as environmental conditions fluctuate (temperature, sunlight, ...
SBIRPhase I2020Department of Energy -
Automated Monitoring of the Rhizosphere Using Graphite Electrodes
Amount: $1,047,776.00An automated, real-time monitoring system for the determination of redox and microbial activity in unsaturated zone and/or the rhizosphere environments. The technology will allow for improved characte ...
SBIRPhase II2019Department of Energy -
Automated Monitoring of the Rhizosphere using a Microbial Sensor
Amount: $224,288.00An automated, real-time monitoring system for the determination of redox and microbial activity in unsaturated zone and/or the rhizosphere environments- This would allow for improved characterization ...
SBIRPhase I2018Department of Energy -
Automated Monitoring of Subsurface Microbial Metabolism with Graphite Electrodes
Amount: $993,678.00An automated, real-time monitoring system for determining microbial activity in aqueous and subsurface environments (soils, aquifers and wastewater treatment facilities) will allow for improved charac ...
SBIRPhase II2018Department of Energy -
Automated Monitoring of Subsurface Microbial Metabolism with Graphite Electrodes
Amount: $994,439.00An automated, real-time monitoring system for determination microbial activity in anaerobic environments (sediments/saturated soils and aquifers) would allow for improved characterization (fat ...
SBIRPhase II2016Department of Energy -
Automated Monitoring of Subsurface Microbial Metabolism with Graphite Electrodes
Amount: $223,784.00An automated, real-time monitoring system for determination microbial activity in anaerobic environments (sediments/saturated soils and aquifers) would allow for improved characterization (fate and tr ...
SBIRPhase I2015Department of Energy -
Development of an Automated System to Measure Chlorinated Volatile Organic Compounds in Groundwater and Soil-Gas: A Tool to Enable Remote Field Monitoring of the Long-Term Migration
Amount: $139,708.00The long-term monitoring of groundwater contamination plumes and soil-gas migration to determine the fate of contaminants in the environment is expensive and labor intensive. Current baseline methods ...
SBIRPhase I2013Department of Energy -
Development of An Automated System to Measure Tritium in Groundwater: A toll to Enable Remote Field Monitoring for the Presence and Migration of Tritium at contaminated DOE and nuclear generating site
Amount: $99,830.00The long-term monitoring of groundwater contamination plumes to determine the fate of contaminants in the environment is expensive and labor intensive. Current baseline methods have resulted in monito ...
STTRPhase I2011Department of Energy