ERC for Advancing Sustainable and Distributed Fertilizer Production
The ERC for Advancing Sustainable and Distributed Fertilizer Production (CASFER) will strive to solve one of the most pressing problems facing humankind: how do we feed the growing world population while protecting and sustaining our environment? CASFER will enable resilient and sustainable food production by developing next generation, modular, distributed, and efficient technology for capturing, recycling, and producing decarbonized nitrogen-based fertilizers (NBFs). CASFER will create a transformative engineered system that takes the US from nitrogen-cycle pollution to a Nitrogen Circular Economy (NCE), from a linear economy to a circular economy with multidimensional social, environmental, and economic growth. CASFER will capture and recycle nitrogen from waste to reach over 50% of the US NBF consumption. Instead of expending resources, energy, and money to deactivate diluted reactive nitrogen from waste streams, nitrogen from waste will be captured and recycled for crop production.
Energy and Sustainability
Energy and Sustainability
Location
Lead Institution
Start Year
Website
Fact Sheet
Core Partners
Center News and Achievements
Locations
Additional Information
Focus
CASFER will enable resilient and sustainable food production by developing next-generation, modular, distributed and efficient technology for capturing, recycling, and producing decarbonized nitrogen-based fertilizers.
Graduation Date
Education Web Page
Research Opportunities for Undergrads
Student Leadership Council
ERC for Advancing Sustainable and Distributed Fertilizer Production
The ERC for Advancing Sustainable and Distributed Fertilizer Production (CASFER) will strive to solve one of the most pressing problems facing humankind: how do we feed the growing world population while protecting and sustaining our environment? CASFER will enable resilient and sustainable food production by developing next generation, modular, distributed, and efficient technology for capturing, recycling, and producing decarbonized nitrogen-based fertilizers (NBFs). CASFER will create a transformative engineered system that takes the US from nitrogen-cycle pollution to a Nitrogen Circular Economy (NCE), from a linear economy to a circular economy with multidimensional social, environmental, and economic growth. CASFER will capture and recycle nitrogen from waste to reach over 50% of the US NBF consumption. Instead of expending resources, energy, and money to deactivate diluted reactive nitrogen from waste streams, nitrogen from waste will be captured and recycled for crop production.
|
LocationLubbock, Texas
|
Lead InstitutionTexas Tech University
|
Start Year |
Website |
Fact SheetDocument
|
Core PartnersCase Western Reserve University
Florida A&M University
Georgia Tech
Massachusetts Institute of Technology
|
|
Image
|
FocusCASFER will enable resilient and sustainable food production by developing next-generation, modular, distributed and efficient technology for capturing, recycling, and producing decarbonized nitrogen-based fertilizers. |
Graduation Date |
Education Web Page |
Research Opportunities for Undergrads |
Student Leadership Council |
Center News and Achievements
Locations
ERC for Advancing Sustainable and Distributed Fertilizer Production
The ERC for Advancing Sustainable and Distributed Fertilizer Production (CASFER) will strive to solve one of the most pressing problems facing humankind: how do we feed the growing world population while protecting and sustaining our environment? CASFER will enable resilient and sustainable food production by developing next generation, modular, distributed, and efficient technology for capturing, recycling, and producing decarbonized nitrogen-based fertilizers (NBFs). CASFER will create a transformative engineered system that takes the US from nitrogen-cycle pollution to a Nitrogen Circular Economy (NCE), from a linear economy to a circular economy with multidimensional social, environmental, and economic growth. CASFER will capture and recycle nitrogen from waste to reach over 50% of the US NBF consumption. Instead of expending resources, energy, and money to deactivate diluted reactive nitrogen from waste streams, nitrogen from waste will be captured and recycled for crop production.
Energy and Sustainability
Energy and Sustainability
Location
Lead Institution
Start Year
Website
Fact Sheet
Core Partners
Center News and Achievements
Additional Information
Focus
CASFER will enable resilient and sustainable food production by developing next-generation, modular, distributed and efficient technology for capturing, recycling, and producing decarbonized nitrogen-based fertilizers.