230 likes | 385 Views
Comparison of Three Sources of CO 2 (Electrochemical Generation, Propane Combustion and Compressed Gas Cylinder) for Mosquito Surveillance. Daniel L. Kline USDA-ARS, CMAVE Gainesville, FL dkline@gainesville.usda.ufl.edu. CO 2 Short History.
E N D
Comparison of Three Sources of CO2 (Electrochemical Generation, Propane Combustion and Compressed Gas Cylinder) for Mosquito Surveillance Daniel L. Kline USDA-ARS, CMAVE Gainesville, FL dkline@gainesville.usda.ufl.edu
CO2 Short History • 1922 Rudolfs reported that carbon dioxide was a mosquito attractant • 1934 Headlee reported that delivering CO2 gas over a New Jersey light trap for only 2 hr each evening increased the mosquito catch by 400-500% • 1942 Reeves & Hammon were two of the first to seriously propose the addition of CO2 to light traps to increase mosquito catches. • Not all species are attracted equally by the addition of CO2.
Available Sources • Human and animal sources • Dry ice • Compressed (pressurized) gas cylinders • Propane combustion • Solid impregnate technology • Yeast fermentation • Anaerobic • Aerobic
Available Sources • Sodium bicarbonate/acid drip method • Sterno combustion • Fuel cells
USDA CSREES grant award No. 2005-3361-15563, entitled “Electrochemical Carbon Dioxide Generator for Mosquito Surveillance” Dr. Henri Maget Med-e-Cell San Diego, CA
SBIR Phase I Overall Objective Determine the feasibility of using Med-e-Cell’s electrochemical CO2 generation technology for mosquito surveillance.
Phase I Specific Objective Develop an experimental CO2 generator capable of producing up to 200 ml of CO2 per minute.
Electrochemical Generation of CO2 By applying voltage across an electrochemical cell containing a carboxylic acid (e.g. oxalic acid), the following reactions take place: Anode reaction: HOOC-COOH 2 CO2 + 2H+ + 2e- Cathode reaction: 2H+ + 2e- H2 Overall process: HOOC-COOH 2 CO2 + H2
Prototype Carbon Dioxide Generator • The generator geometry is 6.5 x 5 x 4 cm and weighs less than 100 grams • The first prototype generator operated from an AC/DC converter at 5 Amps and 3.8 volts producing 9 liters of CO2/hr for a period of 4 hours (150 ml/min); consumed 67 grams of oxalic acid • The cost to operate the device at that rate and duration would be about 25 cents for the organic acid and 1 cent in power • The size of the generator can be increased (or decreased) and the production rate of CO2 also
Other Prototype Features • No valves, manifolds, etc. • Can be started manually (switch) or by timer • The rate can be increased/decreased at will by adjusting the current • The system price is in the vicinity of $100 • The system is battery compatible • The system is ideally suited for solar energy, since it is a low voltage device
Mosquitoes Releasedin Each Cage Ochlerotatustaeniorhynchus (500) Aedesaegypti (500)
SBIR Phase II Plans • Develop an integrated monitoring system which would include: • The electrochemical CO2 generator and octenol dispenser as described in this talk • A way to generate moisture and heat as a by-product of the electrochemical process • Electronic time-release circuitry to start/stop the CO2 and to deliver pulses of CO2 • A solar power source to allow complete system autonomy