What is CAGE Code 0RTN5?

0RTN5 is the unique identifier used by NATO Organizations to reference the physical entity known as Teledyne Energy Systems, Inc located at 10707 Gilroy Rd, Hunt Valley MD 21031-1311, United States.

Who is CAGE Code 0RTN5?

0RTN5 refers to Teledyne Energy Systems, Inc located at 10707 Gilroy Rd, Hunt Valley MD 21031-1311, United States.

Where is CAGE Code 0RTN5 Located?

CAGE Code 0RTN5 is located in Hunt Valley, MD, USA.

Teledyne Energy Systems, Inc

CAGE Code: 0RTN5

NCAGE Code: 0RTN5

Status: Active

Type: Manufacturer

Dun & Bradstreet (DUNS): 623866241

Summary

Teledyne Energy Systems, Inc is an Active Manufacturer with the Cage Code 0RTN5 and is tracked by Dun & Bradstreet under DUNS Number 623866241..

Address

10707 Gilroy Rd
Hunt Valley MD 21031-1311
United States

Points of Contact

No Points of Contact...

Related Information

DUNS Report

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Frequently Asked Questions (FAQ) for CAGE 0RTN5

What is CAGE Code 0RTN5?: 0RTN5 is the unique identifier used by NATO Organizations to reference the physical entity known as Teledyne Energy Systems, Inc located at 10707 Gilroy Rd, Hunt Valley MD 21031-1311, United States.
Who is CAGE Code 0RTN5?: 0RTN5 refers to Teledyne Energy Systems, Inc located at 10707 Gilroy Rd, Hunt Valley MD 21031-1311, United States.
Where is CAGE Code 0RTN5 Located?: CAGE Code 0RTN5 is located in Hunt Valley, MD, USA.

Contracting History for CAGE 0RTN5 Most Recent 25 Records

80AFRC21CA004
Mature And Test The Hydrogen Electrical Power System $2,361,851.00 (Heps)
19 Jul 2021: Nasa Armstrong Flight Research Cntr; National Aeronautics And Space Administration (Nasa); $1,102,658.00
80AFRC21CA004
Mature And Test The Hydrogen Electrical Power System $2,361,851.00 (Heps)
19 Jul 2021: Nasa Armstrong Flight Research Cntr; National Aeronautics And Space Administration (Nasa); $2,128,642.00
80AFRC21CA004
Mature And Test The Hydrogen Electrical Power System $2,361,851.00 (Heps)
28 Jul 2023: Nasa Armstrong Flight Research Cntr; National Aeronautics And Space Administration (Nasa); $2,128,642.00
80AFRC21CA004
Mature And Test The Hydrogen Electrical Power System $2,361,851.00 (Heps)
19 Jul 2021: Nasa Armstrong Flight Research Cntr; National Aeronautics And Space Administration (Nasa); $2,128,642.00
80AFRC21CA004
Eo14042 Mature And Test The Hydrogen Electrical Power System $2,361,851.00 (Heps)
13 Oct 2021: Nasa Armstrong Flight Research Cntr; National Aeronautics And Space Administration (Nasa); $1,312,143.00
80AFRC21CA004
Eo14042 Mature And Test The Hydrogen Electrical Power System $2,361,851.00 (Heps)
19 Jul 2021: Nasa Armstrong Flight Research Cntr; National Aeronautics And Space Administration (Nasa); $1,312,143.00
80AFRC21CA004
Mature And Test The Hydrogen Electrical Power System $2,361,851.00 (Heps)
23 Sep 2021: Nasa Armstrong Flight Research Cntr; National Aeronautics And Space Administration (Nasa); $1,102,658.00
80AFRC21CA004
Mature And Test The Hydrogen Electrical Power System $2,611,739.00 (Heps)
19 Jul 2021: Nasa Armstrong Flight Research Cntr; National Aeronautics And Space Administration (Nasa); $2,128,642.00
80HQTR19C0023
The National Aeronautics And Space Administration (Nasa) Is Seeking Industry Support To.Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary.Bodies. Nasa Is Specifically Working Towards The Capability To Sustainably Live Safely Beyond.The Earth. In-Situ Resource Utilization (Isru), The Production Of Mission Critical Consumables On.Planetary Bodies Used For Human Exploration That Would Otherwise Be Brought From Earth, Has.Been Identified By Nasa As An Exploration Element That Has No Flight Precedent. The Nasa.Nextstep-2 Baa (Isru Baa) Seeks Concepts For The Fabrication And Testing Of Critical Isru.Components For Processing Of Extraterrestrial Resources Into Water, Oxygen, And Fuel..In Response To The Isru Baa, Teledyne Energy Systems, Inc. (Tesi) Proposes To Address The.Production Of Oxygen And Fuel From Extraterrestrial Resources, Specifically The Generation Of.Oxygen And Fuel From Ice That Is Mined From The Moon Or Mars. To Realize The Production Of.Oxygen And Fuel From Extraterrestrial Resources, Tesi Proposes The Development And Testing (In A.Relevant Environment) Of An Alkaline Water Electrolyzer. The Alkaline Water Electrolyzer Is Based.On A Commercial Dual Irriguous (Dual-Feed/ Flooded) System Exclusively Sold By Tesi. One.Advantage Of The Proposed Electrolysis System Over Others That Have Been Funded By Nasa Is In.The Minimal Processing (Clean-Up) Required Of Isru Water Feedstock For Use In An Electrolysis.System. The Advanced Electrolyzer Is Expected To Produce 1.1 Kg Of Oxygen Per Hour In The.Range Of 6.2 To 6.7 Kw, Delivering A Key Metric Of 5.6 To 6.1 W/(Kg O2/Hr). The Goal Of This.Proposed Effort Is To Demonstrate An Electrolysis System That Can Support The Maximum Level Of.Contaminants Found In Isru Water Feed Stock And Produce Oxygen And Fuel At The Lowest Energy.Possible. If Successful, This Effort Would Provide Nasa With A Robust Solution For Generating.Oxygen And Fuel On Planetary Bodies Beyond Earth..To Develop The Proposed Alkaline Electrolyzer, Tesi Will Initiate Single-Cell Electrolysis Studies.Using A Testbed Previously Developed To Support A Department Of Energy (Doe) Effort. The.Single Cells Will Be Parametrically Studied As A Function Of Operating Temperature, Operating.Pressure, And Contaminant Concentration. Initial Contaminates Will Be Based On Simple Species.That Are Typical Of That Expected In Isru Water Feed Stock That Is Mined From Ice On The Moon Or.Mars. This Will Be Done To Understand The Effects Of Each Contaminant Species On Electrolyzer.Durability. The Final Single-Cell Evaluation Will Be Based On A Simulated Isru Water.Feedstock Provided By Nasa. At The Completion Of Single-Cell Electrolyzer Testing, A 10-Cell.Stack Will Be Fabricated For Testing In A Relevant Environment. Although Not A Focus Of The Isru.Baa, The Stack Will Be Designed For Operation At 3,600 Psig. This Electrolysis System Will Form.The Basis Of An Oxygen Generator That Can Better Integrate With The Environmental Control And Life.Support Systems (Eclss) Of A Crewed Spacecraft Or Habitat. It Is Tesi's Hope That The Proposed.Electrolyzer May Serve As A Modular System For Isru, Eclss, Regenerative Fuel Cells (Rfcs),.And Our Commercial Activities..
28 Jun 2023: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,142,673.00
692M1519C00021
Teledyne Services In Support Of Mea's For Reformate Tolerant Pem Fc Stacks
27 Aug 2022: 692M15 Acquisition & Grants, Aaq600; Department Of Transportation (Dot); $167,133.00
80HQTR19C0023
The National Aeronautics And Space Administration (Nasa) Is Seeking Industry Support To.Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary.Bodies. Nasa Is Specifically Working Towards The Capability To Sustainably Live Safely Beyond.The Earth. In-Situ Resource Utilization (Isru), The Production Of Mission Critical Consumables On.Planetary Bodies Used For Human Exploration That Would Otherwise Be Brought From Earth, Has.Been Identified By Nasa As An Exploration Element That Has No Flight Precedent. The Nasa.Nextstep-2 Baa (Isru Baa) Seeks Concepts For The Fabrication And Testing Of Critical Isru.Components For Processing Of Extraterrestrial Resources Into Water, Oxygen, And Fuel..In Response To The Isru Baa, Teledyne Energy Systems, Inc. (Tesi) Proposes To Address The.Production Of Oxygen And Fuel From Extraterrestrial Resources, Specifically The Generation Of.Oxygen And Fuel From Ice That Is Mined From The Moon Or Mars. To Realize The Production Of.Oxygen And Fuel From Extraterrestrial Resources, Tesi Proposes The Development And Testing (In A.Relevant Environment) Of An Alkaline Water Electrolyzer. The Alkaline Water Electrolyzer Is Based.On A Commercial Dual Irriguous (Dual-Feed/ Flooded) System Exclusively Sold By Tesi. One.Advantage Of The Proposed Electrolysis System Over Others That Have Been Funded By Nasa Is In.The Minimal Processing (Clean-Up) Required Of Isru Water Feedstock For Use In An Electrolysis.System. The Advanced Electrolyzer Is Expected To Produce 1.1 Kg Of Oxygen Per Hour In The.Range Of 6.2 To 6.7 Kw, Delivering A Key Metric Of 5.6 To 6.1 W/(Kg O2/Hr). The Goal Of This.Proposed Effort Is To Demonstrate An Electrolysis System That Can Support The Maximum Level Of.Contaminants Found In Isru Water Feed Stock And Produce Oxygen And Fuel At The Lowest Energy.Possible. If Successful, This Effort Would Provide Nasa With A Robust Solution For Generating.Oxygen And Fuel On Planetary Bodies Beyond Earth..To Develop The Proposed Alkaline Electrolyzer, Tesi Will Initiate Single-Cell Electrolysis Studies.Using A Testbed Previously Developed To Support A Department Of Energy (Doe) Effort. The.Single Cells Will Be Parametrically Studied As A Function Of Operating Temperature, Operating.Pressure, And Contaminant Concentration. Initial Contaminates Will Be Based On Simple Species.That Are Typical Of That Expected In Isru Water Feed Stock That Is Mined From Ice On The Moon Or.Mars. This Will Be Done To Understand The Effects Of Each Contaminant Species On Electrolyzer.Durability. The Final Single-Cell Evaluation Will Be Based On A Simulated Isru Water.Feedstock Provided By Nasa. At The Completion Of Single-Cell Electrolyzer Testing, A 10-Cell.Stack Will Be Fabricated For Testing In A Relevant Environment. Although Not A Focus Of The Isru.Baa, The Stack Will Be Designed For Operation At 3,600 Psig. This Electrolysis System Will Form.The Basis Of An Oxygen Generator That Can Better Integrate With The Environmental Control And Life.Support Systems (Eclss) Of A Crewed Spacecraft Or Habitat. It Is Tesi's Hope That The Proposed.Electrolyzer May Serve As A Modular System For Isru, Eclss, Regenerative Fuel Cells (Rfcs),.And Our Commercial Activities..
27 Apr 2023: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,142,673.00
80HQTR19C0023
This Contract Seeks Industry Support To Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary Bodies.
2 Jun 2021: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,096,911.00
80HQTR19C0023
The National Aeronautics And Space Administration (Nasa) Is Seeking Industry Support To.Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary.Bodies. Nasa Is Specifically Working Towards The Capability To Sustainably Live Safely Beyond.The Earth. In-Situ Resource Utilization (Isru), The Production Of Mission Critical Consumables On.Planetary Bodies Used For Human Exploration That Would Otherwise Be Brought From Earth, Has.Been Identified By Nasa As An Exploration Element That Has No Flight Precedent. The Nasa.Nextstep-2 Baa (Isru Baa) Seeks Concepts For The Fabrication And Testing Of Critical Isru.Components For Processing Of Extraterrestrial Resources Into Water, Oxygen, And Fuel..In Response To The Isru Baa, Teledyne Energy Systems, Inc. (Tesi) Proposes To Address The.Production Of Oxygen And Fuel From Extraterrestrial Resources, Specifically The Generation Of.Oxygen And Fuel From Ice That Is Mined From The Moon Or Mars. To Realize The Production Of.Oxygen And Fuel From Extraterrestrial Resources, Tesi Proposes The Development And Testing (In A.Relevant Environment) Of An Alkaline Water Electrolyzer. The Alkaline Water Electrolyzer Is Based.On A Commercial Dual Irriguous (Dual-Feed/ Flooded) System Exclusively Sold By Tesi. One.Advantage Of The Proposed Electrolysis System Over Others That Have Been Funded By Nasa Is In.The Minimal Processing (Clean-Up) Required Of Isru Water Feedstock For Use In An Electrolysis.System. The Advanced Electrolyzer Is Expected To Produce 1.1 Kg Of Oxygen Per Hour In The.Range Of 6.2 To 6.7 Kw, Delivering A Key Metric Of 5.6 To 6.1 W/(Kg O2/Hr). The Goal Of This.Proposed Effort Is To Demonstrate An Electrolysis System That Can Support The Maximum Level Of.Contaminants Found In Isru Water Feed Stock And Produce Oxygen And Fuel At The Lowest Energy.Possible. If Successful, This Effort Would Provide Nasa With A Robust Solution For Generating.Oxygen And Fuel On Planetary Bodies Beyond Earth..To Develop The Proposed Alkaline Electrolyzer, Tesi Will Initiate Single-Cell Electrolysis Studies.Using A Testbed Previously Developed To Support A Department Of Energy (Doe) Effort. The.Single Cells Will Be Parametrically Studied As A Function Of Operating Temperature, Operating.Pressure, And Contaminant Concentration. Initial Contaminates Will Be Based On Simple Species.That Are Typical Of That Expected In Isru Water Feed Stock That Is Mined From Ice On The Moon Or.Mars. This Will Be Done To Understand The Effects Of Each Contaminant Species On Electrolyzer.Durability. The Final Single-Cell Evaluation Will Be Based On A Simulated Isru Water.Feedstock Provided By Nasa. At The Completion Of Single-Cell Electrolyzer Testing, A 10-Cell.Stack Will Be Fabricated For Testing In A Relevant Environment. Although Not A Focus Of The Isru.Baa, The Stack Will Be Designed For Operation At 3,600 Psig. This Electrolysis System Will Form.The Basis Of An Oxygen Generator That Can Better Integrate With The Environmental Control And Life.Support Systems (Eclss) Of A Crewed Spacecraft Or Habitat. It Is Tesi's Hope That The Proposed.Electrolyzer May Serve As A Modular System For Isru, Eclss, Regenerative Fuel Cells (Rfcs),.And Our Commercial Activities..
14 Sep 2022: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,142,673.00
80HQTR19C0023
The National Aeronautics And Space Administration (Nasa) Is Seeking Industry Support To.Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary.Bodies. Nasa Is Specifically Working Towards The Capability To Sustainably Live Safely Beyond.The Earth. In-Situ Resource Utilization (Isru), The Production Of Mission Critical Consumables On.Planetary Bodies Used For Human Exploration That Would Otherwise Be Brought From Earth, Has.Been Identified By Nasa As An Exploration Element That Has No Flight Precedent. The Nasa.Nextstep-2 Baa (Isru Baa) Seeks Concepts For The Fabrication And Testing Of Critical Isru.Components For Processing Of Extraterrestrial Resources Into Water, Oxygen, And Fuel..In Response To The Isru Baa, Teledyne Energy Systems, Inc. (Tesi) Proposes To Address The.Production Of Oxygen And Fuel From Extraterrestrial Resources, Specifically The Generation Of.Oxygen And Fuel From Ice That Is Mined From The Moon Or Mars. To Realize The Production Of.Oxygen And Fuel From Extraterrestrial Resources, Tesi Proposes The Development And Testing (In A.Relevant Environment) Of An Alkaline Water Electrolyzer. The Alkaline Water Electrolyzer Is Based.On A Commercial Dual Irriguous (Dual-Feed/ Flooded) System Exclusively Sold By Tesi. One.Advantage Of The Proposed Electrolysis System Over Others That Have Been Funded By Nasa Is In.The Minimal Processing (Clean-Up) Required Of Isru Water Feedstock For Use In An Electrolysis.System. The Advanced Electrolyzer Is Expected To Produce 1.1 Kg Of Oxygen Per Hour In The.Range Of 6.2 To 6.7 Kw, Delivering A Key Metric Of 5.6 To 6.1 W/(Kg O2/Hr). The Goal Of This.Proposed Effort Is To Demonstrate An Electrolysis System That Can Support The Maximum Level Of.Contaminants Found In Isru Water Feed Stock And Produce Oxygen And Fuel At The Lowest Energy.Possible. If Successful, This Effort Would Provide Nasa With A Robust Solution For Generating.Oxygen And Fuel On Planetary Bodies Beyond Earth..To Develop The Proposed Alkaline Electrolyzer, Tesi Will Initiate Single-Cell Electrolysis Studies.Using A Testbed Previously Developed To Support A Department Of Energy (Doe) Effort. The.Single Cells Will Be Parametrically Studied As A Function Of Operating Temperature, Operating.Pressure, And Contaminant Concentration. Initial Contaminates Will Be Based On Simple Species.That Are Typical Of That Expected In Isru Water Feed Stock That Is Mined From Ice On The Moon Or.Mars. This Will Be Done To Understand The Effects Of Each Contaminant Species On Electrolyzer.Durability. The Final Single-Cell Evaluation Will Be Based On A Simulated Isru Water.Feedstock Provided By Nasa. At The Completion Of Single-Cell Electrolyzer Testing, A 10-Cell.Stack Will Be Fabricated For Testing In A Relevant Environment. Although Not A Focus Of The Isru.Baa, The Stack Will Be Designed For Operation At 3,600 Psig. This Electrolysis System Will Form.The Basis Of An Oxygen Generator That Can Better Integrate With The Environmental Control And Life.Support Systems (Eclss) Of A Crewed Spacecraft Or Habitat. It Is Tesi's Hope That The Proposed.Electrolyzer May Serve As A Modular System For Isru, Eclss, Regenerative Fuel Cells (Rfcs),.And Our Commercial Activities..
14 Jun 2022: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,096,911.00
80HQTR19C0023
This Contract Is To Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary Bodies. Nasa Is Specifically Working Towards The Capability To Sustainably Live Safely Beyond The Earth.
25 May 2021: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,096,911.00
DENE0008392
Sustained Power System Design, Development & Fabrication De-Obligation Of Unused Funds Of ($185,897.16) From Award For Closeout To Match Their Financial Records. The Final Release Was Signed 04/28/2023. The Final Invoice Was Received 06/15/202
10 Aug 2023: Idaho Operations Office; Department Of Energy (Doe); $12,587,322.50
80HQTR19C0023
Eo14042 The National Aeronautics And Space Administration (Nasa) Is Seeking Industry Support To.Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary.Bodies. Nasa Is Specifically Working Towards The Capability To Sustainably Live Safely Beyond.The Earth. In-Situ Resource Utilization (Isru), The Production Of Mission Critical Consumables On.Planetary Bodies Used For Human Exploration That Would Otherwise Be Brought From Earth, Has.Been Identified By Nasa As An Exploration Element That Has No Flight Precedent. The Nasa.Nextstep-2 Baa (Isru Baa) Seeks Concepts For The Fabrication And Testing Of Critical Isru.Components For Processing Of Extraterrestrial Resources Into Water, Oxygen, And Fuel..In Response To The Isru Baa, Teledyne Energy Systems, Inc. (Tesi) Proposes To Address The.Production Of Oxygen And Fuel From Extraterrestrial Resources, Specifically The Generation Of.Oxygen And Fuel From Ice That Is Mined From The Moon Or Mars. To Realize The Production Of.Oxygen And Fuel From Extraterrestrial Resources, Tesi Proposes The Development And Testing (In A.Relevant Environment) Of An Alkaline Water Electrolyzer. The Alkaline Water Electrolyzer Is Based.On A Commercial Dual Irriguous (Dual-Feed/ Flooded) System Exclusively Sold By Tesi. One.Advantage Of The Proposed Electrolysis System Over Others That Have Been Funded By Nasa Is In.The Minimal Processing (Clean-Up) Required Of Isru Water Feedstock For Use In An Electrolysis.System. The Advanced Electrolyzer Is Expected To Produce 1.1 Kg Of Oxygen Per Hour In The.Range Of 6.2 To 6.7 Kw, Delivering A Key Metric Of 5.6 To 6.1 W/(Kg O2/Hr). The Goal Of This.Proposed Effort Is To Demonstrate An Electrolysis System That Can Support The Maximum Level Of.Contaminants Found In Isru Water Feed Stock And Produce Oxygen And Fuel At The Lowest Energy.Possible. If Successful, This Effort Would Provide Nasa With A Robust Solution For Generating.Oxygen And Fuel On Planetary Bodies Beyond Earth..To Develop The Proposed Alkaline Electrolyzer, Tesi Will Initiate Single-Cell Electrolysis Studies.Using A Testbed Previously Developed To Support A Department Of Energy (Doe) Effort. The.Single Cells Will Be Parametrically Studied As A Function Of Operating Temperature, Operating.Pressure, And Contaminant Concentration. Initial Contaminates Will Be Based On Simple Species.That Are Typical Of That Expected In Isru Water Feed Stock That Is Mined From Ice On The Moon Or.Mars. This Will Be Done To Understand The Effects Of Each Contaminant Species On Electrolyzer.Durability. The Final Single-Cell Evaluation Will Be Based On A Simulated Isru Water.Feedstock Provided By Nasa. At The Completion Of Single-Cell Electrolyzer Testing, A 10-Cell.Stack Will Be Fabricated For Testing In A Relevant Environment. Although Not A Focus Of The Isru.Baa, The Stack Will Be Designed For Operation At 3,600 Psig. This Electrolysis System Will Form.The Basis Of An Oxygen Generator That Can Better Integrate With The Environmental Control And Life.Support Systems (Eclss) Of A Crewed Spacecraft Or Habitat. It Is Tesi's Hope That The Proposed.Electrolyzer May Serve As A Modular System For Isru, Eclss, Regenerative Fuel Cells (Rfcs),.And Our Commercial Activities..
19 Oct 2021: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,096,911.00
80HQTR19C0023
The National Aeronautics And Space Administration (Nasa) Is Seeking Industry Support To.Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary.Bodies. Nasa Is Specifically Working Towards The Capability To Sustainably Live Safely Beyond.The Earth. In-Situ Resource Utilization (Isru), The Production Of Mission Critical Consumables On.Planetary Bodies Used For Human Exploration That Would Otherwise Be Brought From Earth, Has.Been Identified By Nasa As An Exploration Element That Has No Flight Precedent. The Nasa.Nextstep-2 Baa (Isru Baa) Seeks Concepts For The Fabrication And Testing Of Critical Isru.Components For Processing Of Extraterrestrial Resources Into Water, Oxygen, And Fuel..In Response To The Isru Baa, Teledyne Energy Systems, Inc. (Tesi) Proposes To Address The.Production Of Oxygen And Fuel From Extraterrestrial Resources, Specifically The Generation Of.Oxygen And Fuel From Ice That Is Mined From The Moon Or Mars. To Realize The Production Of.Oxygen And Fuel From Extraterrestrial Resources, Tesi Proposes The Development And Testing (In A.Relevant Environment) Of An Alkaline Water Electrolyzer. The Alkaline Water Electrolyzer Is Based.On A Commercial Dual Irriguous (Dual-Feed/ Flooded) System Exclusively Sold By Tesi. One.Advantage Of The Proposed Electrolysis System Over Others That Have Been Funded By Nasa Is In.The Minimal Processing (Clean-Up) Required Of Isru Water Feedstock For Use In An Electrolysis.System. The Advanced Electrolyzer Is Expected To Produce 1.1 Kg Of Oxygen Per Hour In The.Range Of 6.2 To 6.7 Kw, Delivering A Key Metric Of 5.6 To 6.1 W/(Kg O2/Hr). The Goal Of This.Proposed Effort Is To Demonstrate An Electrolysis System That Can Support The Maximum Level Of.Contaminants Found In Isru Water Feed Stock And Produce Oxygen And Fuel At The Lowest Energy.Possible. If Successful, This Effort Would Provide Nasa With A Robust Solution For Generating.Oxygen And Fuel On Planetary Bodies Beyond Earth..To Develop The Proposed Alkaline Electrolyzer, Tesi Will Initiate Single-Cell Electrolysis Studies.Using A Testbed Previously Developed To Support A Department Of Energy (Doe) Effort. The.Single Cells Will Be Parametrically Studied As A Function Of Operating Temperature, Operating.Pressure, And Contaminant Concentration. Initial Contaminates Will Be Based On Simple Species.That Are Typical Of That Expected In Isru Water Feed Stock That Is Mined From Ice On The Moon Or.Mars. This Will Be Done To Understand The Effects Of Each Contaminant Species On Electrolyzer.Durability. The Final Single-Cell Evaluation Will Be Based On A Simulated Isru Water.Feedstock Provided By Nasa. At The Completion Of Single-Cell Electrolyzer Testing, A 10-Cell.Stack Will Be Fabricated For Testing In A Relevant Environment. Although Not A Focus Of The Isru.Baa, The Stack Will Be Designed For Operation At 3,600 Psig. This Electrolysis System Will Form.The Basis Of An Oxygen Generator That Can Better Integrate With The Environmental Control And Life.Support Systems (Eclss) Of A Crewed Spacecraft Or Habitat. It Is Tesi's Hope That The Proposed.Electrolyzer May Serve As A Modular System For Isru, Eclss, Regenerative Fuel Cells (Rfcs),.And Our Commercial Activities..
1 Feb 2023: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,142,673.00
80HQTR19C0023
The National Aeronautics And Space Administration (Nasa) Is Seeking Industry Support To.Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary.Bodies. Nasa Is Specifically Working Towards The Capability To Sustainably Live Safely Beyond.The Earth. In-Situ Resource Utilization (Isru), The Production Of Mission Critical Consumables On.Planetary Bodies Used For Human Exploration That Would Otherwise Be Brought From Earth, Has.Been Identified By Nasa As An Exploration Element That Has No Flight Precedent. The Nasa.Nextstep-2 Baa (Isru Baa) Seeks Concepts For The Fabrication And Testing Of Critical Isru.Components For Processing Of Extraterrestrial Resources Into Water, Oxygen, And Fuel..In Response To The Isru Baa, Teledyne Energy Systems, Inc. (Tesi) Proposes To Address The.Production Of Oxygen And Fuel From Extraterrestrial Resources, Specifically The Generation Of.Oxygen And Fuel From Ice That Is Mined From The Moon Or Mars. To Realize The Production Of.Oxygen And Fuel From Extraterrestrial Resources, Tesi Proposes The Development And Testing (In A.Relevant Environment) Of An Alkaline Water Electrolyzer. The Alkaline Water Electrolyzer Is Based.On A Commercial Dual Irriguous (Dual-Feed/ Flooded) System Exclusively Sold By Tesi. One.Advantage Of The Proposed Electrolysis System Over Others That Have Been Funded By Nasa Is In.The Minimal Processing (Clean-Up) Required Of Isru Water Feedstock For Use In An Electrolysis.System. The Advanced Electrolyzer Is Expected To Produce 1.1 Kg Of Oxygen Per Hour In The.Range Of 6.2 To 6.7 Kw, Delivering A Key Metric Of 5.6 To 6.1 W/(Kg O2/Hr). The Goal Of This.Proposed Effort Is To Demonstrate An Electrolysis System That Can Support The Maximum Level Of.Contaminants Found In Isru Water Feed Stock And Produce Oxygen And Fuel At The Lowest Energy.Possible. If Successful, This Effort Would Provide Nasa With A Robust Solution For Generating.Oxygen And Fuel On Planetary Bodies Beyond Earth..To Develop The Proposed Alkaline Electrolyzer, Tesi Will Initiate Single-Cell Electrolysis Studies.Using A Testbed Previously Developed To Support A Department Of Energy (Doe) Effort. The.Single Cells Will Be Parametrically Studied As A Function Of Operating Temperature, Operating.Pressure, And Contaminant Concentration. Initial Contaminates Will Be Based On Simple Species.That Are Typical Of That Expected In Isru Water Feed Stock That Is Mined From Ice On The Moon Or.Mars. This Will Be Done To Understand The Effects Of Each Contaminant Species On Electrolyzer.Durability. The Final Single-Cell Evaluation Will Be Based On A Simulated Isru Water.Feedstock Provided By Nasa. At The Completion Of Single-Cell Electrolyzer Testing, A 10-Cell.Stack Will Be Fabricated For Testing In A Relevant Environment. Although Not A Focus Of The Isru.Baa, The Stack Will Be Designed For Operation At 3,600 Psig. This Electrolysis System Will Form.The Basis Of An Oxygen Generator That Can Better Integrate With The Environmental Control And Life.Support Systems (Eclss) Of A Crewed Spacecraft Or Habitat. It Is Tesi's Hope That The Proposed.Electrolyzer May Serve As A Modular System For Isru, Eclss, Regenerative Fuel Cells (Rfcs),.And Our Commercial Activities..
14 Sep 2022: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,142,673.00
80HQTR19C0023
The National Aeronautics And Space Administration (Nasa) Is Seeking Industry Support To.Develop A Pathway For Human Spaceflight Into Cis-Lunar Space And For The Habitation Of Planetary.Bodies. Nasa Is Specifically Working Towards The Capability To Sustainably Live Safely Beyond.The Earth. In-Situ Resource Utilization (Isru), The Production Of Mission Critical Consumables On.Planetary Bodies Used For Human Exploration That Would Otherwise Be Brought From Earth, Has.Been Identified By Nasa As An Exploration Element That Has No Flight Precedent. The Nasa.Nextstep-2 Baa (Isru Baa) Seeks Concepts For The Fabrication And Testing Of Critical Isru.Components For Processing Of Extraterrestrial Resources Into Water, Oxygen, And Fuel..In Response To The Isru Baa, Teledyne Energy Systems, Inc. (Tesi) Proposes To Address The.Production Of Oxygen And Fuel From Extraterrestrial Resources, Specifically The Generation Of.Oxygen And Fuel From Ice That Is Mined From The Moon Or Mars. To Realize The Production Of.Oxygen And Fuel From Extraterrestrial Resources, Tesi Proposes The Development And Testing (In A.Relevant Environment) Of An Alkaline Water Electrolyzer. The Alkaline Water Electrolyzer Is Based.On A Commercial Dual Irriguous (Dual-Feed/ Flooded) System Exclusively Sold By Tesi. One.Advantage Of The Proposed Electrolysis System Over Others That Have Been Funded By Nasa Is In.The Minimal Processing (Clean-Up) Required Of Isru Water Feedstock For Use In An Electrolysis.System. The Advanced Electrolyzer Is Expected To Produce 1.1 Kg Of Oxygen Per Hour In The.Range Of 6.2 To 6.7 Kw, Delivering A Key Metric Of 5.6 To 6.1 W/(Kg O2/Hr). The Goal Of This.Proposed Effort Is To Demonstrate An Electrolysis System That Can Support The Maximum Level Of.Contaminants Found In Isru Water Feed Stock And Produce Oxygen And Fuel At The Lowest Energy.Possible. If Successful, This Effort Would Provide Nasa With A Robust Solution For Generating.Oxygen And Fuel On Planetary Bodies Beyond Earth..To Develop The Proposed Alkaline Electrolyzer, Tesi Will Initiate Single-Cell Electrolysis Studies.Using A Testbed Previously Developed To Support A Department Of Energy (Doe) Effort. The.Single Cells Will Be Parametrically Studied As A Function Of Operating Temperature, Operating.Pressure, And Contaminant Concentration. Initial Contaminates Will Be Based On Simple Species.That Are Typical Of That Expected In Isru Water Feed Stock That Is Mined From Ice On The Moon Or.Mars. This Will Be Done To Understand The Effects Of Each Contaminant Species On Electrolyzer.Durability. The Final Single-Cell Evaluation Will Be Based On A Simulated Isru Water.Feedstock Provided By Nasa. At The Completion Of Single-Cell Electrolyzer Testing, A 10-Cell.Stack Will Be Fabricated For Testing In A Relevant Environment. Although Not A Focus Of The Isru.Baa, The Stack Will Be Designed For Operation At 3,600 Psig. This Electrolysis System Will Form.The Basis Of An Oxygen Generator That Can Better Integrate With The Environmental Control And Life.Support Systems (Eclss) Of A Crewed Spacecraft Or Habitat. It Is Tesi's Hope That The Proposed.Electrolyzer May Serve As A Modular System For Isru, Eclss, Regenerative Fuel Cells (Rfcs),.And Our Commercial Activities..
1 Sep 2021: Nasa Headquarters; National Aeronautics And Space Administration (Nasa); $1,096,911.00