Search results
(1 - 15 of 15)
- Title
- Growing Water: 31st Street Eco-Boulevard and IIT Pavilion Prototype (Semester Unknown) IPRO 322: Growing Water IPRO 322 Ethics F08
- Creator
- Beissinger, Daniel, Boder, Matthew, Booher, Steven, Bryant, Kristin, Guzek, Ewa, Horabik, David, Klusek, Natalia, Kochanek, Malgorzata, Mccarthy, Michael, Mejsak, Marcin, Oblenida, Ryan, Slota, Carolina, Veneziano, Marco
- Date
- 2008, 2008-12
- Description
-
1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage...
Show more1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage currently, many believe that water will be to the next century what oil is to this century: a huge commodity. Twenty percent of the world's potable water is contained in the Great Lakes. In order to be responsible consumers of this natural resource, Chicago is looking into different plans to return water to Lake Michigan. The purpose of Growing Water IPRO is to create a prototype of an Eco-boulevard on the IIT campus that will serve as an example of practices that could be implemented across the Chicago-land area to manage and naturally purify storm water and sewage water so it can be reintroduced to Lake Michigan. These Eco-boulevards will also serve as educational facilities to inform the community about the growing scarcity of water and how to conserve this precious resource.
Deliverables
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- Title
- Growing Water: 31st Street Eco-Boulevard and IIT Pavilion Prototype (Semester Unknown) IPRO 322: Growing Water IPRO 322 Brochure F08
- Creator
- Beissinger, Daniel, Boder, Matthew, Booher, Steven, Bryant, Kristin, Guzek, Ewa, Horabik, David, Klusek, Natalia, Kochanek, Malgorzata, Mccarthy, Michael, Mejsak, Marcin, Oblenida, Ryan, Slota, Carolina, Veneziano, Marco
- Date
- 2008, 2008-12
- Description
-
1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage...
Show more1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage currently, many believe that water will be to the next century what oil is to this century: a huge commodity. Twenty percent of the world's potable water is contained in the Great Lakes. In order to be responsible consumers of this natural resource, Chicago is looking into different plans to return water to Lake Michigan. The purpose of Growing Water IPRO is to create a prototype of an Eco-boulevard on the IIT campus that will serve as an example of practices that could be implemented across the Chicago-land area to manage and naturally purify storm water and sewage water so it can be reintroduced to Lake Michigan. These Eco-boulevards will also serve as educational facilities to inform the community about the growing scarcity of water and how to conserve this precious resource.
Deliverables
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- Title
- Growing Water: 31st Street Eco-Boulevard and IIT Pavilion Prototype (Semester Unknown) IPRO 322
- Creator
- Beissinger, Daniel, Boder, Matthew, Booher, Steven, Bryant, Kristin, Guzek, Ewa, Horabik, David, Klusek, Natalia, Kochanek, Malgorzata, Mccarthy, Michael, Mejsak, Marcin, Oblenida, Ryan, Slota, Carolina, Veneziano, Marco
- Date
- 2008, 2008-12
- Description
-
1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage...
Show more1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage currently, many believe that water will be to the next century what oil is to this century: a huge commodity. Twenty percent of the world's potable water is contained in the Great Lakes. In order to be responsible consumers of this natural resource, Chicago is looking into different plans to return water to Lake Michigan. The purpose of Growing Water IPRO is to create a prototype of an Eco-boulevard on the IIT campus that will serve as an example of practices that could be implemented across the Chicago-land area to manage and naturally purify storm water and sewage water so it can be reintroduced to Lake Michigan. These Eco-boulevards will also serve as educational facilities to inform the community about the growing scarcity of water and how to conserve this precious resource.
Deliverables
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- Title
- Growing Water: 31st Street Eco-Boulevard and IIT Pavilion Prototype (Semester Unknown) IPRO 322: Growing Water IPRO 322 Final Report F08
- Creator
- Beissinger, Daniel, Boder, Matthew, Booher, Steven, Bryant, Kristin, Guzek, Ewa, Horabik, David, Klusek, Natalia, Kochanek, Malgorzata, Mccarthy, Michael, Mejsak, Marcin, Oblenida, Ryan, Slota, Carolina, Veneziano, Marco
- Date
- 2008, 2008-12
- Description
-
1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage...
Show more1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage currently, many believe that water will be to the next century what oil is to this century: a huge commodity. Twenty percent of the world's potable water is contained in the Great Lakes. In order to be responsible consumers of this natural resource, Chicago is looking into different plans to return water to Lake Michigan. The purpose of Growing Water IPRO is to create a prototype of an Eco-boulevard on the IIT campus that will serve as an example of practices that could be implemented across the Chicago-land area to manage and naturally purify storm water and sewage water so it can be reintroduced to Lake Michigan. These Eco-boulevards will also serve as educational facilities to inform the community about the growing scarcity of water and how to conserve this precious resource.
Deliverables
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- Title
- Growing Water: 31st Street Eco-Boulevard and IIT Pavilion Prototype (Semester Unknown) IPRO 322: Growing Water IPRO 322 MidTerm Presentation F08
- Creator
- Beissinger, Daniel, Boder, Matthew, Booher, Steven, Bryant, Kristin, Guzek, Ewa, Horabik, David, Klusek, Natalia, Kochanek, Malgorzata, Mccarthy, Michael, Mejsak, Marcin, Oblenida, Ryan, Slota, Carolina, Veneziano, Marco
- Date
- 2008, 2008-12
- Description
-
1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage...
Show more1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage currently, many believe that water will be to the next century what oil is to this century: a huge commodity. Twenty percent of the world's potable water is contained in the Great Lakes. In order to be responsible consumers of this natural resource, Chicago is looking into different plans to return water to Lake Michigan. The purpose of Growing Water IPRO is to create a prototype of an Eco-boulevard on the IIT campus that will serve as an example of practices that could be implemented across the Chicago-land area to manage and naturally purify storm water and sewage water so it can be reintroduced to Lake Michigan. These Eco-boulevards will also serve as educational facilities to inform the community about the growing scarcity of water and how to conserve this precious resource.
Deliverables
Show less
- Title
- Growing Water: 31st Street Eco-Boulevard and IIT Pavilion Prototype (Semester Unknown) IPRO 322: Growing Water IPRO 322 Final Presentation F08
- Creator
- Beissinger, Daniel, Boder, Matthew, Booher, Steven, Bryant, Kristin, Guzek, Ewa, Horabik, David, Klusek, Natalia, Kochanek, Malgorzata, Mccarthy, Michael, Mejsak, Marcin, Oblenida, Ryan, Slota, Carolina, Veneziano, Marco
- Date
- 2008, 2008-12
- Description
-
1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage...
Show more1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage currently, many believe that water will be to the next century what oil is to this century: a huge commodity. Twenty percent of the world's potable water is contained in the Great Lakes. In order to be responsible consumers of this natural resource, Chicago is looking into different plans to return water to Lake Michigan. The purpose of Growing Water IPRO is to create a prototype of an Eco-boulevard on the IIT campus that will serve as an example of practices that could be implemented across the Chicago-land area to manage and naturally purify storm water and sewage water so it can be reintroduced to Lake Michigan. These Eco-boulevards will also serve as educational facilities to inform the community about the growing scarcity of water and how to conserve this precious resource.
Deliverables
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- Title
- Growing Water: 31st Street Eco-Boulevard and IIT Pavilion Prototype (Semester Unknown) IPRO 322: Growing Water IPRO 322 Project Plan F08
- Creator
- Beissinger, Daniel, Boder, Matthew, Booher, Steven, Bryant, Kristin, Guzek, Ewa, Horabik, David, Klusek, Natalia, Kochanek, Malgorzata, Mccarthy, Michael, Mejsak, Marcin, Oblenida, Ryan, Slota, Carolina, Veneziano, Marco
- Date
- 2008, 2008-12
- Description
-
1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage...
Show more1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage currently, many believe that water will be to the next century what oil is to this century: a huge commodity. Twenty percent of the world's potable water is contained in the Great Lakes. In order to be responsible consumers of this natural resource, Chicago is looking into different plans to return water to Lake Michigan. The purpose of Growing Water IPRO is to create a prototype of an Eco-boulevard on the IIT campus that will serve as an example of practices that could be implemented across the Chicago-land area to manage and naturally purify storm water and sewage water so it can be reintroduced to Lake Michigan. These Eco-boulevards will also serve as educational facilities to inform the community about the growing scarcity of water and how to conserve this precious resource.
Deliverables
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- Title
- Growing Water: 31st Street Eco-Boulevard and IIT Pavilion Prototype (Semester Unknown) IPRO 322: Growing Water IPRO 322 Poster F08
- Creator
- Beissinger, Daniel, Boder, Matthew, Booher, Steven, Bryant, Kristin, Guzek, Ewa, Horabik, David, Klusek, Natalia, Kochanek, Malgorzata, Mccarthy, Michael, Mejsak, Marcin, Oblenida, Ryan, Slota, Carolina, Veneziano, Marco
- Date
- 2008, 2008-12
- Description
-
1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage...
Show more1048 million gallons of water is used in Chicago everyday. Chicago replenishes almost none of it. Although there is no water shortage currently, many believe that water will be to the next century what oil is to this century: a huge commodity. Twenty percent of the world's potable water is contained in the Great Lakes. In order to be responsible consumers of this natural resource, Chicago is looking into different plans to return water to Lake Michigan. The purpose of Growing Water IPRO is to create a prototype of an Eco-boulevard on the IIT campus that will serve as an example of practices that could be implemented across the Chicago-land area to manage and naturally purify storm water and sewage water so it can be reintroduced to Lake Michigan. These Eco-boulevards will also serve as educational facilities to inform the community about the growing scarcity of water and how to conserve this precious resource.
Deliverables
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- 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
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- 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
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- 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