Mango Materials Inc
CAGE Code: 66L51
NCAGE Code: 66L51
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 965348696
Summary
Mango Materials Inc is an Active Commercial Supplier with the Cage Code 66L51 and is tracked by Dun & Bradstreet under DUNS Number 965348696..
Address
800 Buchanan St
Albany CA 94710-1105
United States
Points of Contact
- Telephone:
- 6504270430
-
http://www.mangomaterials.com/
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Frequently Asked Questions (FAQ) for CAGE 66L51
- What is CAGE Code 66L51?
- 66L51 is the unique identifier used by NATO Organizations to reference the physical entity known as Mango Materials Inc located at 800 Buchanan St, Albany CA 94710-1105, United States.
- Who is CAGE Code 66L51?
- 66L51 refers to Mango Materials Inc located at 800 Buchanan St, Albany CA 94710-1105, United States.
- Where is CAGE Code 66L51 Located?
- CAGE Code 66L51 is located in Albany, CA, USA.
Contracting History for CAGE 66L51 Most Recent 25 Records
- 80NSSC21C0620
- Eo14042 A Novel, Membrane-Based Bioreactor Design To Enable A Closed-Loop System On Earth And Beyond
- 14 Oct 2021
- Eo14042 A Novel, Membrane-Based Bioreactor Design To Enable A Closed-Loop System On Earth And Beyond
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $3,000,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0620
- A Novel, Membrane-Based Bioreactor Design To Enable A Closed-Loop System On Earth And Beyond
- 28 Jul 2023
- A Novel, Membrane-Based Bioreactor Design To Enable A Closed-Loop System On Earth And Beyond
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $3,000,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0620
- A Novel, Membrane-Based Bioreactor Design To Enable A Closed-Loop System On Earth And Beyond
- 22 Sep 2021
- A Novel, Membrane-Based Bioreactor Design To Enable A Closed-Loop System On Earth And Beyond
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $3,000,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC17C0026
- The Proposed Innovation Is A Membrane Bioreactor System To Produce A Biopolymer From Methane Gas That Is Applicable In Outer Space Environments. This New Methane Fermentation Process Will Expand And Advance Current Gas Delivery Techniques To Create Affordable Fermentation Methods On Earth And Beyond. Mango Materials Is Currently Working To Scale Up And Commercialize The Production Of Polyhydroxyalkanoate (Pha) From Methane, But Its Scaled-Up Fermentation Systems Are Typically Tall And Narrow To Take Advantage Of Hydrostatic Pressure For The Transfer Of Methane Into Solution. The Proposed Work Represents A Unique Approach That Could Enable The Production Of Biopolymer On Earth And Also Non-Earth Environments, Thus Creating A Closed-Loop System For Producing Biopolymer Products On-Demand In Outer Space. The Proposed Design Is A Novel, Membrane-Based Bioreactor That Will Enable Bacterial Growth And Biopolymer Production To Occur In Micro- Or Low-Gravity Environments By Providing Gases Through Membranes. Growth And Biopolymer Production Using Methane As A Feedstock Will Be Demonstrated At High Efficiencies. The Proposed Work Will Also Identify Methods By Which Process Wastes Can Be Recycled Back To Minimize The Required Inputs. Finally, A Thorough Feasibility Analysis Will Be Conducted To Evaluate The Use Of The Process On A Long-Term Space Mission. Mango Materials Will Partner With Colorado School Of Mines, Where There Is Extensive Experience With Membrane Bioreactors, To Design And Construct This System.
- 27 Jun 2019
- The Proposed Innovation Is A Membrane Bioreactor System To Produce A Biopolymer From Methane Gas That Is Applicable In Outer Space Environments. This New Methane Fermentation Process Will Expand And Advance Current Gas Delivery Techniques To Create Affordable Fermentation Methods On Earth And Beyond. Mango Materials Is Currently Working To Scale Up And Commercialize The Production Of Polyhydroxyalkanoate (Pha) From Methane, But Its Scaled-Up Fermentation Systems Are Typically Tall And Narrow To Take Advantage Of Hydrostatic Pressure For The Transfer Of Methane Into Solution. The Proposed Work Represents A Unique Approach That Could Enable The Production Of Biopolymer On Earth And Also Non-Earth Environments, Thus Creating A Closed-Loop System For Producing Biopolymer Products On-Demand In Outer Space. The Proposed Design Is A Novel, Membrane-Based Bioreactor That Will Enable Bacterial Growth And Biopolymer Production To Occur In Micro- Or Low-Gravity Environments By Providing Gases Through Membranes. Growth And Biopolymer Production Using Methane As A Feedstock Will Be Demonstrated At High Efficiencies. The Proposed Work Will Also Identify Methods By Which Process Wastes Can Be Recycled Back To Minimize The Required Inputs. Finally, A Thorough Feasibility Analysis Will Be Conducted To Evaluate The Use Of The Process On A Long-Term Space Mission. Mango Materials Will Partner With Colorado School Of Mines, Where There Is Extensive Experience With Membrane Bioreactors, To Design And Construct This System.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,124,989.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC17C0026
- The Proposed Innovation Is A Membrane Bioreactor System To Produce A Biopolymer From Methane Gas That Is Applicable In Outer Space Environments. This New Methane Fermentation Process Will Expand And Advance Current Gas Delivery Techniques To Create Affordable Fermentation Methods On Earth And Beyond. Mango Materials Is Currently Working To Scale Up And Commercialize The Production Of Polyhydroxyalkanoate (Pha) From Methane, But Its Scaled-Up Fermentation Systems Are Typically Tall And Narrow To Take Advantage Of Hydrostatic Pressure For The Transfer Of Methane Into Solution. The Proposed Work Represents A Unique Approach That Could Enable The Production Of Biopolymer On Earth And Also Non-Earth Environments, Thus Creating A Closed-Loop System For Producing Biopolymer Products On-Demand In Outer Space. The Proposed Design Is A Novel, Membrane-Based Bioreactor That Will Enable Bacterial Growth And Biopolymer Production To Occur In Micro- Or Low-Gravity Environments By Providing Gases Through Membranes. Growth And Biopolymer Production Using Methane As A Feedstock Will Be Demonstrated At High Efficiencies. The Proposed Work Will Also Identify Methods By Which Process Wastes Can Be Recycled Back To Minimize The Required Inputs. Finally, A Thorough Feasibility Analysis Will Be Conducted To Evaluate The Use Of The Process On A Long-Term Space Mission. Mango Materials Will Partner With Colorado School Of Mines, Where There Is Extensive Experience With Membrane Bioreactors, To Design And Construct This System.
- 31 May 2018
- The Proposed Innovation Is A Membrane Bioreactor System To Produce A Biopolymer From Methane Gas That Is Applicable In Outer Space Environments. This New Methane Fermentation Process Will Expand And Advance Current Gas Delivery Techniques To Create Affordable Fermentation Methods On Earth And Beyond. Mango Materials Is Currently Working To Scale Up And Commercialize The Production Of Polyhydroxyalkanoate (Pha) From Methane, But Its Scaled-Up Fermentation Systems Are Typically Tall And Narrow To Take Advantage Of Hydrostatic Pressure For The Transfer Of Methane Into Solution. The Proposed Work Represents A Unique Approach That Could Enable The Production Of Biopolymer On Earth And Also Non-Earth Environments, Thus Creating A Closed-Loop System For Producing Biopolymer Products On-Demand In Outer Space. The Proposed Design Is A Novel, Membrane-Based Bioreactor That Will Enable Bacterial Growth And Biopolymer Production To Occur In Micro- Or Low-Gravity Environments By Providing Gases Through Membranes. Growth And Biopolymer Production Using Methane As A Feedstock Will Be Demonstrated At High Efficiencies. The Proposed Work Will Also Identify Methods By Which Process Wastes Can Be Recycled Back To Minimize The Required Inputs. Finally, A Thorough Feasibility Analysis Will Be Conducted To Evaluate The Use Of The Process On A Long-Term Space Mission. Mango Materials Will Partner With Colorado School Of Mines, Where There Is Extensive Experience With Membrane Bioreactors, To Design And Construct This System.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,989.00
- National Aeronautics And Space Administration (Nasa)