Search results
(1 - 19 of 19)
- Title
- Power Plant Waste Heat Utilization for Greenhouse Applications (Semester Unknown) IPRO 342: AtomicProduceIPRO342FinalReportSp10
- Creator
- Aguirre, Marisol, Alvarez, Matthew, Bartus, Krzysztof, Chippo, Fatima, Fonk, Andrew, Harbour, Zachary, Hasbrouck, Joshua, Jeffcoat, Brooke, Jensen, Madeline, Kunkel, Emily, Lima, Nancy, Min Nam, Kyung, Patel, Tejash, Pope, Christopher, Qaisar, Samir, Zarazua, Gustavo, Zorra, I
- Date
- 2010, 2010-05
- Description
-
The goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in...
Show moreThe goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in greenhouse applications. Though extremely efficient, the Braidwood Generating Station, like all nuclear power plants, still wastes two-thirds of all energy generated and pumps 1.5 million gallons per minute of warm waste water into its cooling lake. All of this thermal energy pumped into the cooling lake is wasted. IPRO 342 was looking to change that.
Deliverables
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- Title
- Power Plant Waste Heat Utilization for Greenhouse Applications (Semester Unknown) IPRO 342: AtomicProduceIPRO342FinalPresentationSp10
- Creator
- Aguirre, Marisol, Alvarez, Matthew, Bartus, Krzysztof, Chippo, Fatima, Fonk, Andrew, Harbour, Zachary, Hasbrouck, Joshua, Jeffcoat, Brooke, Jensen, Madeline, Kunkel, Emily, Lima, Nancy, Min Nam, Kyung, Patel, Tejash, Pope, Christopher, Qaisar, Samir, Zarazua, Gustavo, Zorra, I
- Date
- 2010, 2010-05
- Description
-
The goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in...
Show moreThe goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in greenhouse applications. Though extremely efficient, the Braidwood Generating Station, like all nuclear power plants, still wastes two-thirds of all energy generated and pumps 1.5 million gallons per minute of warm waste water into its cooling lake. All of this thermal energy pumped into the cooling lake is wasted. IPRO 342 was looking to change that.
Deliverables
Show less
- Title
- Power Plant Waste Heat Utilization for Greenhouse Applications (Semester Unknown) IPRO 342: AtomicProduceIPRO342BrochureSp10
- Creator
- Aguirre, Marisol, Alvarez, Matthew, Bartus, Krzysztof, Chippo, Fatima, Fonk, Andrew, Harbour, Zachary, Hasbrouck, Joshua, Jeffcoat, Brooke, Jensen, Madeline, Kunkel, Emily, Lima, Nancy, Min Nam, Kyung, Patel, Tejash, Pope, Christopher, Qaisar, Samir, Zarazua, Gustavo, Zorra, I
- Date
- 2010, 2010-05
- Description
-
The goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in...
Show moreThe goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in greenhouse applications. Though extremely efficient, the Braidwood Generating Station, like all nuclear power plants, still wastes two-thirds of all energy generated and pumps 1.5 million gallons per minute of warm waste water into its cooling lake. All of this thermal energy pumped into the cooling lake is wasted. IPRO 342 was looking to change that.
Deliverables
Show less
- Title
- Power Plant Waste Heat Utilization for Greenhouse Applications (Semester Unknown) IPRO 342
- Creator
- Aguirre, Marisol, Alvarez, Matthew, Bartus, Krzysztof, Chippo, Fatima, Fonk, Andrew, Harbour, Zachary, Hasbrouck, Joshua, Jeffcoat, Brooke, Jensen, Madeline, Kunkel, Emily, Lima, Nancy, Min Nam, Kyung, Patel, Tejash, Pope, Christopher, Qaisar, Samir, Zarazua, Gustavo, Zorra, I
- Date
- 2010, 2010-05
- Description
-
The goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in...
Show moreThe goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in greenhouse applications. Though extremely efficient, the Braidwood Generating Station, like all nuclear power plants, still wastes two-thirds of all energy generated and pumps 1.5 million gallons per minute of warm waste water into its cooling lake. All of this thermal energy pumped into the cooling lake is wasted. IPRO 342 was looking to change that.
Deliverables
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- Title
- Robbins Community Power (RCP) (Semester Unknown) IPRO 347: RCPIPRO347PosterF10
- Creator
- Abankwa, Kevin, Alhassan, Kolade, Apampa, Kunle, Bukowska, Angelika, Drecoll, Daniel, Ernst, William, Ibrahim, Suliman, Jung, Young, Kunkel, Emily, Morton, Stacy, Mulcany, Liam, Munoz, Matthew, Olorunoje, Kamaldeen, Kyeong Park, Bo, Pham, Anne, Singh, Java
- Date
- 2010, 2010-12
- Description
-
The IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP...
Show moreThe IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP plans to convert the facility from its original role as an incinerator into a wood biomass electricity plant. Working with RCP, the team will look at thermodynamic values to determine how to best utilize the excess heat generated from the boiler that currently radiates out the cooling towers. Additionally, the team will research and discuss possible solutions to be implemented on the 22 acre site. The intricacies that arise from the nontraditional nature of our plan require we split into two groups. One sub-team will look into exactly where the waste heat exists and the values of viable energy available in the form of steam or hot water. This team will seek interdisciplinary advice as part of the energy analysis. The second, but most influential, sub-team will predominantly be researching feasible outlets for the recovered energy. Some solutions they will pursue include supplying nearby greenhouses with CO2, providing on-site and local heat, and increasing the efficiency of the plant through drying processes.
Sponsorship: Robbins Community Power Plant
Deliverables
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- Title
- Robbins Community Power (RCP) (Semester Unknown) IPRO 347: RCPIPRO347ProjectPlanF10
- Creator
- Abankwa, Kevin, Alhassan, Kolade, Apampa, Kunle, Bukowska, Angelika, Drecoll, Daniel, Ernst, William, Ibrahim, Suliman, Jung, Young, Kunkel, Emily, Morton, Stacy, Mulcany, Liam, Munoz, Matthew, Olorunoje, Kamaldeen, Kyeong Park, Bo, Pham, Anne, Singh, Java
- Date
- 2010, 2010-12
- Description
-
The IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP...
Show moreThe IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP plans to convert the facility from its original role as an incinerator into a wood biomass electricity plant. Working with RCP, the team will look at thermodynamic values to determine how to best utilize the excess heat generated from the boiler that currently radiates out the cooling towers. Additionally, the team will research and discuss possible solutions to be implemented on the 22 acre site. The intricacies that arise from the nontraditional nature of our plan require we split into two groups. One sub-team will look into exactly where the waste heat exists and the values of viable energy available in the form of steam or hot water. This team will seek interdisciplinary advice as part of the energy analysis. The second, but most influential, sub-team will predominantly be researching feasible outlets for the recovered energy. Some solutions they will pursue include supplying nearby greenhouses with CO2, providing on-site and local heat, and increasing the efficiency of the plant through drying processes.
Sponsorship: Robbins Community Power Plant
Deliverables
Show less
- Title
- Robbins Community Power (RCP) (Semester Unknown) IPRO 347: RCPIPRO347FinalPresentationF10
- Creator
- Abankwa, Kevin, Alhassan, Kolade, Apampa, Kunle, Bukowska, Angelika, Drecoll, Daniel, Ernst, William, Ibrahim, Suliman, Jung, Young, Kunkel, Emily, Morton, Stacy, Mulcany, Liam, Munoz, Matthew, Olorunoje, Kamaldeen, Kyeong Park, Bo, Pham, Anne, Singh, Java
- Date
- 2010, 2010-12
- Description
-
The IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP...
Show moreThe IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP plans to convert the facility from its original role as an incinerator into a wood biomass electricity plant. Working with RCP, the team will look at thermodynamic values to determine how to best utilize the excess heat generated from the boiler that currently radiates out the cooling towers. Additionally, the team will research and discuss possible solutions to be implemented on the 22 acre site. The intricacies that arise from the nontraditional nature of our plan require we split into two groups. One sub-team will look into exactly where the waste heat exists and the values of viable energy available in the form of steam or hot water. This team will seek interdisciplinary advice as part of the energy analysis. The second, but most influential, sub-team will predominantly be researching feasible outlets for the recovered energy. Some solutions they will pursue include supplying nearby greenhouses with CO2, providing on-site and local heat, and increasing the efficiency of the plant through drying processes.
Sponsorship: Robbins Community Power Plant
Deliverables
Show less
- Title
- Power Plant Waste Heat Utilization for Greenhouse Applications (Semester Unknown) IPRO 342: AtomicProduceIPRO342PosterSp10
- Creator
- Aguirre, Marisol, Alvarez, Matthew, Bartus, Krzysztof, Chippo, Fatima, Fonk, Andrew, Harbour, Zachary, Hasbrouck, Joshua, Jeffcoat, Brooke, Jensen, Madeline, Kunkel, Emily, Lima, Nancy, Min Nam, Kyung, Patel, Tejash, Pope, Christopher, Qaisar, Samir, Zarazua, Gustavo, Zorra, I
- Date
- 2010, 2010-05
- Description
-
The goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in...
Show moreThe goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in greenhouse applications. Though extremely efficient, the Braidwood Generating Station, like all nuclear power plants, still wastes two-thirds of all energy generated and pumps 1.5 million gallons per minute of warm waste water into its cooling lake. All of this thermal energy pumped into the cooling lake is wasted. IPRO 342 was looking to change that.
Deliverables
Show less
- Title
- Power Plant Waste Heat Utilization for Greenhouse Applications (Semester Unknown) IPRO 342: AtomicProduceIPRO342MidTermPresentationSp10
- Creator
- Aguirre, Marisol, Alvarez, Matthew, Bartus, Krzysztof, Chippo, Fatima, Fonk, Andrew, Harbour, Zachary, Hasbrouck, Joshua, Jeffcoat, Brooke, Jensen, Madeline, Kunkel, Emily, Lima, Nancy, Min Nam, Kyung, Patel, Tejash, Pope, Christopher, Qaisar, Samir, Zarazua, Gustavo, Zorra, I
- Date
- 2010, 2010-05
- Description
-
The goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in...
Show moreThe goal of this project was to determine the feasibility of using the heated waste water from the Braidwood Generating Station for use in greenhouse applications. Though extremely efficient, the Braidwood Generating Station, like all nuclear power plants, still wastes two-thirds of all energy generated and pumps 1.5 million gallons per minute of warm waste water into its cooling lake. All of this thermal energy pumped into the cooling lake is wasted. IPRO 342 was looking to change that.
Deliverables
Show less
- Title
- Robbins Community Power (RCP) (Semester Unknown) IPRO 347: RCPIPRO347MidTermPresentationF10
- Creator
- Abankwa, Kevin, Alhassan, Kolade, Apampa, Kunle, Bukowska, Angelika, Drecoll, Daniel, Ernst, William, Ibrahim, Suliman, Jung, Young, Kunkel, Emily, Morton, Stacy, Mulcany, Liam, Munoz, Matthew, Olorunoje, Kamaldeen, Kyeong Park, Bo, Pham, Anne, Singh, Java
- Date
- 2010, 2010-12
- Description
-
The IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP...
Show moreThe IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP plans to convert the facility from its original role as an incinerator into a wood biomass electricity plant. Working with RCP, the team will look at thermodynamic values to determine how to best utilize the excess heat generated from the boiler that currently radiates out the cooling towers. Additionally, the team will research and discuss possible solutions to be implemented on the 22 acre site. The intricacies that arise from the nontraditional nature of our plan require we split into two groups. One sub-team will look into exactly where the waste heat exists and the values of viable energy available in the form of steam or hot water. This team will seek interdisciplinary advice as part of the energy analysis. The second, but most influential, sub-team will predominantly be researching feasible outlets for the recovered energy. Some solutions they will pursue include supplying nearby greenhouses with CO2, providing on-site and local heat, and increasing the efficiency of the plant through drying processes.
Sponsorship: Robbins Community Power Plant
Deliverables
Show less
- Title
- Robbins Community Power (RCP) (Semester Unknown) IPRO 347
- Creator
- Abankwa, Kevin, Alhassan, Kolade, Apampa, Kunle, Bukowska, Angelika, Drecoll, Daniel, Ernst, William, Ibrahim, Suliman, Jung, Young, Kunkel, Emily, Morton, Stacy, Mulcany, Liam, Munoz, Matthew, Olorunoje, Kamaldeen, Kyeong Park, Bo, Pham, Anne, Singh, Java
- Date
- 2010, 2010-12
- Description
-
The IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP...
Show moreThe IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP plans to convert the facility from its original role as an incinerator into a wood biomass electricity plant. Working with RCP, the team will look at thermodynamic values to determine how to best utilize the excess heat generated from the boiler that currently radiates out the cooling towers. Additionally, the team will research and discuss possible solutions to be implemented on the 22 acre site. The intricacies that arise from the nontraditional nature of our plan require we split into two groups. One sub-team will look into exactly where the waste heat exists and the values of viable energy available in the form of steam or hot water. This team will seek interdisciplinary advice as part of the energy analysis. The second, but most influential, sub-team will predominantly be researching feasible outlets for the recovered energy. Some solutions they will pursue include supplying nearby greenhouses with CO2, providing on-site and local heat, and increasing the efficiency of the plant through drying processes.
Sponsorship: Robbins Community Power Plant
Deliverables
Show less
- Title
- Robbins Community Power (RCP) (Semester Unknown) IPRO 347: RCPIPRO347FinalReportF10
- Creator
- Abankwa, Kevin, Alhassan, Kolade, Apampa, Kunle, Bukowska, Angelika, Drecoll, Daniel, Ernst, William, Ibrahim, Suliman, Jung, Young, Kunkel, Emily, Morton, Stacy, Mulcany, Liam, Munoz, Matthew, Olorunoje, Kamaldeen, Kyeong Park, Bo, Pham, Anne, Singh, Java
- Date
- 2010, 2010-12
- Description
-
The IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP...
Show moreThe IPRO 347 team intends to seize the opportunity given by Robbins Community Power (RCP) to improve the efficiency of the power plant. RCP plans to convert the facility from its original role as an incinerator into a wood biomass electricity plant. Working with RCP, the team will look at thermodynamic values to determine how to best utilize the excess heat generated from the boiler that currently radiates out the cooling towers. Additionally, the team will research and discuss possible solutions to be implemented on the 22 acre site. The intricacies that arise from the nontraditional nature of our plan require we split into two groups. One sub-team will look into exactly where the waste heat exists and the values of viable energy available in the form of steam or hot water. This team will seek interdisciplinary advice as part of the energy analysis. The second, but most influential, sub-team will predominantly be researching feasible outlets for the recovered energy. Some solutions they will pursue include supplying nearby greenhouses with CO2, providing on-site and local heat, and increasing the efficiency of the plant through drying processes.
Sponsorship: Robbins Community Power Plant
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318Poster1Sp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318FinalPresentationSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318ProjectPlanSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318BrochureSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318MidTermPresentationSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318FinalReportSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less