Last Name | Name | Awards | Contact | |
---|---|---|---|---|
Weissman | Joseph C. Weissman | 5 | Message |
Phase 2 SBIR
75974B Microalgae biofixation is a candidate technology for abating the emissions of greenhouse gases, particularly CO2, while simultaneously producing fuels and chemicals. One approach is to use nitrogen-fixing microalgae (cyanobacteria) cultivated in large open ponds and harvested to produce both renewable fuels (e.g., methane, and possibly,...
Phase 1 SBIR
75974-Microalgae biofixation is a candidate technology for abating the emissions of greenhouse gases, particularly CO2, while simultaneously producing biofuels (for electricity generation) and nitrogen fertilizers. One approach is to use nitrogen-fixing microalgae, cultivated in large open ponds and harvested to produce both renewable fuels (me...
Phase 1 SBIR
70302S02-II Microalgae technologies that produce renewable fuels and utilize the CO2 from power plant flue gases are one potential approach to the mitigation of greenhouse gases. However, to be useful, high solar energy conversion efficiencies by large-scale algal mass cultures will be required. This project will develop a biotechnological...
Phase 2 SBIR
70302S02-II Microalgae technologies that produce renewable fuels and utilize the CO2 from power plant flue gases are one potential approach to the mitigation of greenhouse gases. However, to be useful, high solar energy conversion efficiencies by large-scale algal mass cultures will be required. This project will develop a biotechnological...
Phase 1 SBIR
70302 Microalgae technologies that not only would produce renewable fuels but also would mitigate greenhouse gases are being developed in the U.S. and abroad. A central R&D issue is the design of the culture systems, which can be of two general types: open ponds and closed photobioreactors. A direct experimental comparison of their attrib...